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Home My WebLink AboutBLD2018-00489 - 07 ENGINEERINGtt'f, t Width =Length = Tvpe: Location: Dealer: DESIGN LOADING . 2015 IBC BIazer lndustries. lnc. Enqineerinq Desiqn Calculations for Jefferson County PUD Job # 19307 10t02t18 36ft 60ft office Port Townsend, WA Design Space 3 modules 2000 # mph (Vult3 sec gusts) mph (Vasd-3 sec gusts) Roof - Pr (Snow) Floor Risk Category Wind Basic Wind Speed Exposure Seismic Site Class Sos Sor Seismic Force- Resisting System Analysis Procedure 40 psf 50 psfor II 120 93 c D 1.000 0.600 Light frame - Wood Shear Panel Equivalent Lateral INDEX OF CALCULATIONS Item GEN TRUSS (by MiTek) RAFTERS/ROOF MISC. ROOF BEAMS COLUMNS FLOOR JOISTS ROOF DIAPHRAGM FLOOR DIAPHRAGM SHEAR WALLS CHASSIS FASTENING FOUNDATION "o"o'#t'fl $ffitfi fi il'3iffiTl*[?l[**" LOAD/1 - LOAD/s TRUSS/1 ROOF/1 - ROOF/2 ROOF/3 - ROOF/s col/1 - coLtz FLOOR/1 LATIl LAT12 LAT/3 - LAT/6 LATIT FND/1 - FND/2 10t04t2018 00T g I 2010 t. wAs Y 35006 G TS ONAL SUBJIOTDCODE AND FIELD INSPEGNOil .,,.11t... ..i. . "it,.,i','1; i .,iiidiiiii Paqe Jefferson County PUD Lg.AJrl \I I t Deadloads Date: 101212018 Roof Weathering layer Underlayment Structural sheathing layer 1 Structural sheathing layer 2 Nailers Rafters/Trusses lnsulation layer 1 lnsulation layer 2 Fire layer Sprinkler Misc. Ceiling PVC/TPO over slipsheet 30# felt 3/4" sheathing 1/2" Securock 0.00 2x8 @ 16 3" rigid foam R-26 cellulose blow-in None No sprinkler system minor overhead components Susp. ceiling - T-bar 0.50 psf 0.30 psf 2.47 psf 2.50 psf 0.00 psf 1.88 psf 0.56 psf 1.00 psf 0.00 psf 0.00 psf 0.50 psf 1.80 Use 25.9 plf incl. braces 3.18 plf 0.00 plf 0.00 1.50 psf 0.00 psf 0.00 psf 2.38 psf 0.70 psf 0.00 psf 0.00 psf 2.50 psf 0.50 2.50 psf 1.52 psf 0.40 psf 2.50 2.50 psf 0.00 1.52 psf 0.40 1.00 psf 0.00 psf 2.36 psf 1.88 psf 0.95 3.2 olf 3.2 plf Use Roof Beam and ledger Rim Vent Blocks ParapeUspecial fascia Wall - Exterior Weathering layer Structural sheathing Fire layer Studs lnsulation lnsulation lnner sheathing Lining Misc. Wall - lnterior Lining Studs lnsulation Lining Wall - lnterior Marriaqe Line Lining Sheathing Studs lnsulation Floor Surfacing Underlayment Structural decking Joists lnsulation MJine rim Perimeter rim inner Perimeter rim outer 1.5 x 24 LVL 2x8 LVL 0.00 x#of LP Smartpanel - 7116" none None 2x6 @ '16' R-21 fiberglass batts None none Gypsum wallboard - 5/8" Misc. components Gypsum wallboard - 5/8" 2x4 @16" R-1 1 fiberglass batts Gypsum wallboard - 5/8" Gypsum wallboard - 5/8" none 2x4 @16" R-1 1 fiberglass batts Carpet and pad - standard None 23132" Sturd-l-Floor 2xB @16 R-38 fiberglass batts 2x8 LVL 2x8 LVL None 2 Total Total Rim Total Total Total Use Use Use Use 12.011.5 6.9 E Blazer lndustries, lnc. Total Total 0.00 19307 Jefferson County PUD calcs.xlsx Comments ,t ( t Jefferson County PUD Wind Loads - lBC Date'. 101212018 LOADI2 Wind Load lnformation Basic wind speed Max height of roof Directionality - general for buildings Risk Category II =Exposure C :) Topographic - no hill effect assumed q. = 0.00256 K Kz Ka V2 Buildinq Dimensiona! lnformation Width = 35.57 ft Length ll to ridge = 60 ft SkirVpony wall = 2.5 ft Floor depth = 0.67 ft Wall ht= gft Rim/roof depth = I ft = Elev.= Roof Pitch = Q.25 in 12 - g = Overhang = 0 in Eave ht = 13.17 ft Ridge ht = 13.80 fth2a) h(ridqe) rido-eave w side ft 0.15 0.37 0.63 5.24 Components and Claddinq (C&C) Area Pressure (psf) PosRoof Edge strip: lesser of (0. 1x W) or (0.4 x eave ht.), but at least greater of 3 ft. or (0.04 x W). Vult = Vasd = Zma\ = Ka= lGmax = Kz- GCpi 120 mph 93 mph 13.80 ft 0.85 ASCE 7-10 Envelope procedure 0.85 1.0 +/- 0.18 Other Assumptions: Building is Enclosed Building is Rigid (T< 1.0s) Qzmax = 26.6 pSf a= 2a= 7.1 ft h/Lw = 0.37 hlLt= 0.22 [= Kn= Edge Strip End Zone 13.17 ft 1.2 deg - h is eave ht for 'flat' roofs: otherwise mean hl. 13.17 ft (Mean 0.85 roof Note: q6 -0.6 for ASD load combos Area Pressure (psf) Pos Zone 1 Zone 2'. Zone 3: Zone2 OH Blazer lndustries, lnc. Maximum Minimum Truss/Rafter Maximum Minimum Truss/Rafter Maximum Minimum Maximum Minimum Truss/Rafter 10.9 10.0 10.0 -15.7 -16.5 10.9 10.0 10.0 14.1 -15.7 '18.1 -19.7 17.9 -19.5 14.1 18.'l '17.9 't0 100 10 100 33.3 100 33.3 100 33.3 '10.0 10.0 N -22.1 -25.8 44.4 -34.8 -39.3 -35.2 -35.2 -35.2 Wall Zone 4: Zone 5: Maximum Minimum Door Stud Maximum Minimum Door Stud 10 100 17.8 21 10 100 33.3 0.3 -15.7 -23.7 -23.3 1 nla nla nla nla nla Zone 3 OH Maximum Minimum Truss/Rafter 10 100 33.3 -59.1 40.0 49.5 19307 Jefferson County PUD calcs.xlsx 16.0 Main Wind-Force Resistinq Svstem (MWFRS) Normal to Surface lr2 from Fig. 28.4-1, h <= 60 ft 4561 1E 2E 3E 4E3 -0.29 -7.5 ,1.8 -7.5 Trans CASC A ncnl +GCpil -Gcpil Maxl 0.40 3.5 9.3 9.3 -0.69 -13.9 -8.2 -13.9 -0.37 -8.8 -3.0 -8.8 0.61 6.9 't2.6 12.6 -1.07 -20.0 -14.2 -20.0 -0.53 -11.3 -5.6 -11.3 -0.43 -9.7 4.0 -9.7 Long case B ocol +GCpil -ccorl Maxl -0.69 -13.9 -8.2 -r3.9 -0.45 -10.1 4.3 -10.1 -0.37 -8.8 -3.0 -8.8 -0.45 -10.1 4.3 .4.3 0.4 3.5 9.3 3.5 -0.29 -7.5 -1.8 -7.5 -0.53 -1 1.3 -5.6 -1 1.3 -1.07 -20.0 -14.2 -20.0 -0.48 -10.5 4.8 4.8 -0.48 -10.5 4.8 -10.5 -8.6 -8.6 -0.18 11.0 -5.1 -5.-20.0 -'11.3 -20.0 -1 1.3 End lnterior -28.0 -21.9 horizontal loads roof LW roof -8.8 end zone wall end zone LW roofWW trans roof windward OHinterior zone wall roof vertical loads interior zone -13.9 -13.9 16.6 16.6 trans long LOADi3 ( ) Jefferson Gounty PUD Seismic Loads - lBG Date: 101212018 Seismic Loads - IBC lmportance factor = Assume site class "D" Sds = 2/3 * Sms = Sd1 = 2/3 * Sm1 = Cs=Sdsl/R= V=CsW= , therefore Design Category D , therefore Design Category D Fa interpolated from Table 1613.3.3(1) Fv interpolated from Table 1613.3.3(2) from Table 1613.3.5(1) from Table 1613.3.5(2) 1 For most severe location in Oregon, Washington, and ldaho Ss = 1.5 Fa = 1.0 Sms = Ss * Fa = 1.500 51 = 0.6 Fv = 1.5 Sm1 = 51 " Fv = 0.900 1.000 0.600 ft = 6.5 (wood shear walls) 0.154 0.154 W 1Eq.12.8-2 ASCE 7l [Eq. 12.8-1 ASCE 7] For load combinations using ASD, 0.7E = 0.108 W For diaphragms, Fp = 0.2|e Sds Wp [section 12-10-1.11 Fp = 0.200 Wp/1.4 = 0.143 WP Blazer lndustries, lnc.19307 Jefferson County PUD calcs.xlsx iI LOAD/4 Jefferson County PUD Desiqn Loads Dale: 101212018 Deadloads Roof (max) Roof (min for uplift) Ceiling/shipping roof MLine beams (total/mod) Roof rims/Parapets Exterior wall lnterior wall MLine wall (half of total) Floor Floor rim perimeter Floor rim MLine Chassis 12 psf 11 psf 0 psf 25.9 plf 3.2 plt 8 psf 7 psf 5 psf 7 psf Liveloads Roof Seismic SL Ceiling Floor UDL Floor Conc. Partition load 40 psf 8 psf 0 psf 50 psf 2000 # over 30" x 30" 0 psf 3.2 plt 3.2 plf 12 plf per rail, plus 150 # for ends and misc. # of tvlodules = t Module #1 423 5 6 0.00 35.57 ft overall 0.00 Overhanqs 0.00 0.00 0 0.00 in - Eave 0.00 in - Gable 0 't 1.83 I 60.00 0.00 0.00 of eave 1 0 to 0.63 width dims in ft)11.83 60.00 11.83 60.00 # of exterior sidewalls 0 Roof diaph. to TOW 1.00 Ext. wall, plate to plate LOO 9.00 9.00 0.00 0.00 0.00 0.67 skirting/ponywall Floor ioist depth lnterior walls 2.50 9.00 9.00 9.00 0.00 0.00 0.00 9.00 9.00 0.00 84 0.00 0 12 24 0 0 0.00 0 0 MLine walls LF of MLine walls LF of exterior walls LF of int walls 9.00 0 84 12 48 0 0 # of axles 4 4 71 48 4 0 0 0 0 0 710 0 0710 710 0 0 753 0 639 0 753 Floor area Exterior wall area lnterior wall area MLine wall area 710 213 108 432 432 0 0 0 0 0 0 0 0 0 0 floor area = 2129 sf (OH distributed to roof hts) partition load in seismic weights tributary to roof tributary to floor tributary to floor 8518 0 0 31 08 8518 1554 0 0 76 268 0 0 0 0 1704 6024 0 0 0 0 0 2160 4473 2160 0 00 4969 4969 460 0 0 0 0 500 4969 460 500 0 900 2390 0 0 0 0 0 0 0 0 0 756 756 2086 460 500 0 MLine beams MLine walls Floor rims Floor HVACs Other Chassis/axles Misc. fixed Exterior walls lnterior walls 851 8 1554 268 6024 0 2390 0 0 0 Total =25133 24639 32214 0 0 0 Min # of 5600# axles 3.4 3.3 4.3 0.0 0.0 0.0 Blazer lndustries, lnc.19307 Jefferson County PUD calcs.xlsx ( f- I 710 108 atea 0 _- 1., LoAD/s r Jefferson County PUD Design Loads - Lateral Dale: 101212018 Seismic Load Refer to preceding sheets for development of following numbers. Seismic base shear applied as fraction of seismic weight = Diaphragm force coefficient = Coefficient IBC + 0.108 0.143 Calculate the roof and diaphragm shear forces for individule modules, to be compared to wind forces AI in lbs.Module # 1 2 3 4 5 b Floor 851 8 5678 1 554 268 3012 378 0 3012 378 0 4969 0 460 2086 851 8 5678 31 08 76 852 378 1080 852 378 1080 4969 0 460 2390 8518 5678 1554 268 3012 2237 1080 3012 2237 1080 4969 900 460 2390 Roof Roof Snow Load MLine beams Rims/Parapets Exterior walls (1/2) lnterior walls (1/2) MLine walls (1/2) HVACs and misc Totals Shear Exterior walls (1/2) lnterior walls (1/2) MLine walls (1/2) Floor Misc. Floor rim Chassis/axles 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 500500500000tota| 0 0 0 0 0 0 0 0 0 0 0 0 0 10904 10128 1 7 00 0 899228442884326400l Total F(roof) = 8992 lb 0 0 51 5415581447215010 f - 5154 lbTotal F(floor be checked against wind shear values to determine worst case loading These values 0 0 0 0 0 0 0 TRUSS/1 t ,{ 04R2 ' lndustries. lnc. Truss BLZ117F otv 1 Truss Type FLAT Ply 1 Job Reference (optional) 13/742503 8.220 s I 201 MiTek 5-9-8 5-9-8 2x3 I 1 4x4 4x4 - 3 64x4-4 2x3 ll q-q-R 5-C-A SPAC|NG- 2-0-0 Plate Grip DOL 1.15 Lumber DOL 1.15 Rep Stress lncr YES Code lBC2015/TP12014 Matrix-RH cst.TC 0.64BC 0.49 wB 0.96 DEFL. Vert(LL) Vert(CT) Hoz(CT) in -0.10 -0.15 0.02 (loc) 5 5 4 l/defl >999 >929 nla Ud 240 180 nla LOADING (psf) TCLL 40.0 (Roof Snow=40.0) TCDL 1O.OBCLL O.O LUMBER- TOP CHORD BOT CHORD WEBS 2x4 DF No.2 2x4 DF No.2 2x4 DF No.2 PLATES MT2O GRIP 2201195 BRACING. TOP CHORD BOT CHORD Weight: 50 lb FT = 20% 2-0-0 oc purlins (3-6-14 max.): l-3, €xceptend verticals. Rigid ceiling directly applied or 9.4-3 oc bracing. 72269PE OREGON REACTIONS.(lb/size) 6=678/0-3-8 (min. 0-1-8), 4=678i0-3-8 (min. 0-1-8) Max Horz 6=-50(LC 6) Max Uplift 6=-1 18(LC 6), a=-1 18(LC 7) FORCES. (lb) - Max. Comp./Max. Ten. - All forces 250 (lb) or less except when shown TOPCHORD 2-3=-18661494,34=-6231193 BOT CHORD 5-6=44411866WEBS 2-5=-2821191 ,2-6=-1 908/480, 3-5=-480/1 908 NOTES. 1) Wind: ASCE 7-10; Vult=120mph (3-second gust) Vasd=95mph; TCDL=6.0psf; BCDL=6.0psf; h=25ft; Cat- ll; Exp C; Enclosed; MWFRS (envelope) gable end zone and C-C Exterior(2) zone; end vertical left and right exposed;C-C for members and forces & MWFRS for reactions showni Lumber DOL=1.60 plate grip DOL=1.60 2) TCLL: ASCE 7-10; Pf=40.0 psf (flat roof snow); Category ll; Exp C; Partially Exp.; Ct=1.10 3) Provide adequate drainage to prevent water ponding. 4) This truss has been designed for a 10.0 psf bottom chord live load nonconcurrent with any other live loads. 5) . This huss has been designed for a live load of 20.0psf on the bottom chord in all areas where a rectangle 3-6-0 tall by 2-O-O wide will fit between the boftom chord and any other members. 6) Provide mechanical connection (by others) of truss to bearing plate capable of withstanding 1 18 lb uplifl at joint 6 and 1 l8 lb uplift at joint 4. 7) This truss is designed in accordance with the 2015 lnternational Building Code section 2306.1 and referenced standard ANSlffPl 1 8) Graphical purlin representation does not depict the size or the orientation of the purlin along the top and/or bottom chord. September 21,2018 5989 [waaxue - v.aty dstgl p.tumote9 .hd READ NoTEs oN fH,s aND IN1LUDEO "tfEK REFERENC1 PAGE tti-\A| N. 'OtO}t O15 BEFORE USE. Design valid for use only with MiTeko connectors. This dosign is based only upon parameloE shown, and is for an individual building component, not a tluss system. Before use, the building designer must veriry the applicability of design paramet€rs and properly inorpoEte this design into the overall building design. Bracing indicated is to prevent buckling of individual truss web and/or chord membe6 only. Additional tempocry and pemanent bracing is always required for stabality and to prevent collapse with possable personal injury and property damage. For general guidance regarding the fabi@tion, storage, delivery, erection andbracing oltrusses and lruss syst6ms, see ANSLtTpll eualtty Criterla, DSB-89 and BCSI Bulldlng ComponentSatatylnfomstion availablefromTrussPlatelnstitute.2r8N.LeeStreet,Suite312,Aloxandria,VA22314. ' ffit MiTek' '16023 Srf,ingley Ridge Rd Ch6tqfeld, MO 63017 JOb 5 4x4- Jefferson County PUD l, ROOF/1 a Rafters Date: 101212018 Dimensional Information Total mod width = Mline rim thk = Outside rim thk = Rafter Length = Roof overhang = Tail inner ext. = Roof Pitch = Bldg least width = Rafter SPacing = NDS Coefficients Cr= Downward Cd = UPlift Cd = Species Zfclr = 1 .1 5 for repetitive members 1.15 1.60 1.00 for connections 11.83 ft 1.5 in 1.5 in 139 in 0in 0in 0.25 in 12 35.57 ft 16 in oc Grade Size fi= S- l= Fb= Fv= E- Cf= ci(b)= ci(E) = E'= f Ddown - 10.88 13.14 47.63 900 180 1600 1.20 1.00 1.00 1 0 0 550 180 1.00 1.00 1.00 727 207 in^2 in^3 in^4 psi psi ksi ksi psi psi Loadinq Rafter Loads R(MLine)R(eave) DL = 12 psf Down = 69.3 plf over interior portion 401 # 401 lnterior Lr = 40 psf 0.0 plf over eave portion Eave Lr = 40 psf Wind - IBC C&C (0.6D + W) Edge strip'a' = 43 in Net up = -12.3 plf over zone I -80 -111 zone 1 uplift = 16'5 psf Net up = '24'8 plf over zone 2 interior Zone 2 uplift = 25.8 psf Extends 43 " from eave Eave uplift = J5.2 psf Net up = -37.3 plf over zone 2 eave portion Analvsis based upon gravity loading Rafter Mmax = 13.9 k-in; f[ = 1061 psi < 1428, OK Vmax = 401 #i fv = 55.3 psi < 207, OK Amax = 0.37 in = U 378 OK Connections Upward reactions are based on maximum of applicable uplifr scenarios 0.131 endnail = 72#down 10dx'l .5"= 107 #down 16gax1"= 60#down 100 # up 149 # up 83#up R # of fasteners MLine Rim Fasten rafter to Mline rim/beam W Down 0.131 endnailed,4 0.131 x 3" nails rim + 1.1 0.131 in Fasten rim/beam 6 " oc. min.Up 80 4 + 0.0 w/ 0.131 x 3" Eave Rim Fasten rafter to eave rim w/ 401 3 0.131 3 0.131 x 3"h rim. + 1.7 10dx1 tn rafter to eave rim over ngs Up 111 1 endnailed,LU26 w/min.2 10d x 1.5" nails +0.0 TailRafter DF#2 2xB DF Std none Blazer lndustries, lnc.19307 Jefferson County PUD calcs.xlsx I ROOF/2 Jefferson County PUD Eave Rim Date: 101212018 Dimensional Information Total mod width = Mline rim thk = Outside rim thk = Rafter Length = Roof overhang = Tail inner ext. = Roof Pitch = Bldg least width = Rafter SPacing = NDS Coefficients Downward Cd = UPlift Cd = Species Zfclr = 1.15 1.60 1.00 for connections 0 0.00 in^2 0.00 in^3 0.0 in^4 550 psi 180 psi 1400 ksi 1.00 1.00 1.00 1400 ksi 633 psi 207 psi 0 k-in^2 0.00 (relative stiffness) 11.83 ft 1.5 in 1.5 in 139 in 0in 0in 0.25 in 12 35.57 ft 16 in Grade Size # of plies [= $= l= Fb= Fv= F= Cf= ci(b)= ci(E)= Er-L- F'bao* = F'vdown = El = K(rel.) = 1 10.88 13.14 47.63 2750 285 2000 1.12 1.00 1.00 2000 3556 328 1 Loads From rafter calculations, W(down) = 301 plf Max opening span = 72 in (consider one end fixed/one end free) Analvsis based upon gravity loading Rim Mmax = 16.3 k-in; l! = 1237 psi < 3556, OK Vmax = 1129 #; fy = 155.7 psi < 328, OK Amax = 0.04 in = U 1882 OK Header or 2nd Rim (if applicable - forces based on compatible displacements) Mmax = 0.0 k-in; fS = nla Vmax= 0#; fy= nla Sheathinq Fasteninq to Rim Fastener type = .113 x2" nails through 7/16" Z (Co =1.6) = Number of rows of fasteners to rim Maximum u 78.4 # 83 Rim Hdr (supplemental) LVL 2xB DF Std none Minimum for fasteners = 6 in oc Blazer lndustries, lnc.19307 Jefferson County PUD calcs.xlsx ! ROOF/3 Jefferson County PUD 12 x 60 LVL (tapered ends) RIDGEBEAM Enter results from CAST proqram. Bm depth = 24 Bm thickness = 1.5 No. of bms = 2 Duration of load factor = 1.15 Max span - 36 feet f= Fb= Fv= Properties shown are for 1 beam 2000000 fi = 36 2750 S - 144 272 | = 1728 Cf = 0.91 Find zero moments x= x x Max. displacement = Max. moment = Min. moment = 11240 = 2878,OK 2878,OK 313 , OK I in cast = delta = Max. shear = Min. shear = 468 540 x= x= 0 0 1.86843 " 285390 -338634 (Be sure to enter signs) 180 M - 94716252 [!l= -182628 -182628 947',t6 0 1 1.8 inches OK 10 - 15 ga. staples 5 - each way 3 - 10d x 1.5 nails 1728 0.93 in. <= ll24O, OK 5778 -5778 Xo= 204.59"=17.05 fi Xo = 51 5.41 " =42.95 ft Xo=0.00 " =0.00 ft M M M M -Fb = +Fb = Fv= 990.94 1175.81 120.38 1.5 x 24 " continuous LVL Grade = 2.0 DFILP/VVH or 2.0 SP BRACES Develop 3% compr. stress with braces at 30 deg f= 618# 15 ga. staples 8.40 10dx1.5 nails = 2.92 ROOF/4 Jefferson Countv PUD marriaqe lines I WinBeam By CAST TIME:10102118 13:46:06 Page: 1 | - DETAILS OF THE ANALYSIS. - DISPLACEMENT AT OUTPUT POINTS - SUMMARY OF THE INPUT INFORMATION - TYPE OF THE PROBLEM : CONTINUOUS BEAM CALCULATION . Types and the locations of the supports in Feet 0.000 12.000 48.000 60.000 At X= At X= At X= At x-- At X= AtX= AtX= AtX= AtX= At X= At X= At X= At X= At X= At X= At X= At X= 0.00000 -0.1 1 082 -0.1 9599 -0.19316 0.00000 0.39596 1.26726 1.38655 1.86843 1.38655 1.26726 G.39506 o.00000 -0.19316 -0.19599 -0.11082 0.00000 0.000 Displacement-- 36.000 Displacement= 72.000 Displacement= 108.000 Displacement= 144.000 Displacement= 180.000 Displacement= 252-000 Displacement= 2M.0O0 Displacement= 360.000 Displacement= 456.000 Displacement= 468.000 f,*splacement= 540.000 Displacement= 576.000 Displacement= 61 2.000 Displacenrent= 648.000 Displacement= 684.000 Displacement= 720.000 Displacement= Hinged support at X= Hingeci support at X= Hinged support at X= Hinged support at X= * Total number of different materials : 1 From X= 0.000 to X= 60.000 E= 2000.000 ksi * Total number of different sections : 6 From X= From X= From X= From X= From X= From X= 0.000 to X= 12.000 to X= 22.000 to X= 30.000 to X= 38.000 to X= 48.000 to X= 12.000 lX= 22.000 lX= 30.000 lX= 38.000 lX= 48.000 lX= 60.000 lX= 561.520 lnch--4 1116.770 lnch** 1520.880 lnch.-4 1520.880 lnch.-4 1 1 16.770 lnch..4 561.520 lnch**4 X= 0.0000l= 36.0000N= 72.0000N= 108.0000N= 144.0000f,= 180.0000f,= 252.0000{= 264.0000N= 360.0000N= 456.0000{= 468.0000{= 540.0000f,= 576.0000X= 612.0000l= 648.0000X= 684.0000{= 720.0000 N= 0.0000f,= 36.0000l= 72.0000N= 108.0000{= 144.0000{= 180.0000f,= 252.0000f,= 264.0000 N= 360.0000N= 456.0000 N= 468.0000 N= 540.0000N= 576.0000{= 612.0000l= 648.0000N= 684.0000f,= 720.0000 * SHEAR FORCES : Coordinate Shear (LT side) Shear (RT side) . Total number of distributed loads : 1 Unit lb/ft At X= 0.000 Wl= 321.000 At X= 60.000 W2= 321.000 - SUMMARY OF THE RESULTS - . LENGTH UNIT lnch ; FORCE UNIT : Lb " MAXIMUM VALUES -55.8759 -1018.8755 -1018.8755 -1981.8751 -1981 .8751 -2944.8747 -2944.8747 -3907.8743 5777.9976 4814.9980 4814.9980 2888.9988 2888.9988 2567.9990 2567.9990 0.0000 0.0000 -2567.9990 -2567.9990 -2888.9988 -2888.9988 4814.9980 -4814.9980 -5777.9976 3907.8743 2944.8747 2944.8747 1981 .8751 1981 .8751 1018.8755 1018.8755 55.8759 0.0000 19345.5251 19345.5251 73359.0362 73359.0362 162040.5330 162040.5330 285390.0158 285390.0158 94716.0935 94716.0935 -182627.7935 -182627.7935 -215369.7802 -215369.7802 -338633.7299 -338633.7299 -215369.7802 -21 5369.7802 -182627.7935 -182627.7935 94716.0935 94716.0935 285390.0158 285390.0158 162040.5330 162040.5330 73359.0362 73359. 19345.5251 19345.5251 0.0000 * Max. displacement is 1.86843 at X=* Min. displacement is -0.19599 at X= 360.000 72.OOO * Max. shearforce is 5777.99765 at X= * Min. shear force is -5777.99765 at X= 144.000 576.000 - MOMENTS: Coordinate Moment (LT side) Moment (RT side * Max. moment is 285390.01580 at X= " Min. moment is -338633.72993 at X= 144.000 360.000 - TOTAL APPLIED LOADS " Total applied concentrated load: 0.000 Lb * Total applied concentrated moment: 0.000 Lb lnch. Total applied distributed load: 19259.992 Lb - SUPPORT REACTIONS * Reaction at X= * Reaction at X= * Reaction at X= ' Reaction at X= 0.000 : Force= 55.876 Moment= 0.000 144.000 : Force= -9685.872 Moment= 0.000 576.000 : Force= -9685.872 Moment= 0.000 720.000 : Force= 55.876 Moment= 0.000 ROOF/5 location= 12.00ft= 144in d - 19.50 in [ = 58.5 in^2 $ = 190.13 in^3 vmax = 5778 # [{ = 285390 in-tb f[ = 1501 pSi formula 4.16 from Wood Engineering & construction Handbook, 3rd Ed interaction eqtn: fb^2/Fb^2 + Fb^2 lan^2lFv^2 + fb 2tan^4lFcp^2 <= 1 b^2lFb 2= 0.2446 b 2tan^2lFv^2= 0.0099 b 2tan^4lFcp^2= 2E-06 total = 0.25 <= 1, OK fv = 148.2 psi <= Fv, OK location= 30.00ft= 360in d = 24.00 in fi = 72 in^2 $ = 288 in^3 vmax= 0# M - 338634 in-lb f[ = 1 176 pSi formula 4.'16 from wood Engineering & construction Handbook, 3rd Ed interaction eqtn: fb^2/Fb^2 + Fb^2tan^2lFv^2 + fb 2tan^4lFcp^2 <= 1 ft'2lFb2= 0.150.1 fb^2 tan^2lFv^2 = 0.0061 b^2lan^4lFcp^2 = 1E-06 total= 0.16 <= 1, OK fu - 0.0 psi <= Fv, OK Check double tapered beam marriage lines beamt= 3in length= Fb'= 3035 psi center d = Fv'= 313 psi end d = Fcperp - 480 psi taper = theta = 1.19 degrees slope = radians = Q.020769 tan2theta = 0.000431 tan4theta = 1 .86186E-07 360 in 24 in 16.5 in 7.5 in 0.020833 <= Fv, OK Use 1 1l2x24LVL 2.0E ridgebeams. Tapercut directions from center - 24" at center lo 16 112" each end. location = ends vmax = d= [= tu- Cy = (dc-de)/de dc= de= cy= Cdt = d=Cdtde= delta d = 1019 # 16.5 in 49.5 in^2 30.9 psi 24 in 16.5 in 0.45 1.3 21.45 in 1.56 in ,l coul Jefferson County PUD Tube SteelGolumn Dale:101212018 Locationr lnterior Columns Column Properties Size: HSS3x3x3/16" fi = 2.02 in^2 S' = 1.73 in^3 rx= 1.13 in Sy = 1.73 in^3 Iv = 1.13 in 8.13 ft = k,= 2.6 in^4 kL. = 1.97 in^3 kl/r, = 2.6 in^4 kv = 1.97 in^3 kLy = kUrY = €x= €v= 97.5 in 1.0 97.5 in 86 1.0 97.5 in 86 0.25 in, ll to MLine = 0.75 in, r to MLine= ASTM A500 Grade B Fv = 46 ksi f = 29000 ksi l= lx- a- Iv= Ly- Loads (from roof beam analysis) (Lr or S) + D Pr,dom = '10449 lb W + 0.6 P P,,up = 935 lb No. SDS screws = SDS length = Brg plate length = Brg plate width = Brg plate thk. = l, = 1.60 uplift 2.5 in, min. For downward bearing 9in+overhangL= 3in= 3.5 in 0.75 in M,= Mv= 2.6 k-in 7.8 k-in Column Analvsis (AISC ASD equations used) - Axial Only Slenderness limit for elastic behavior = 1 18.3 > kUr.", = 86 Fe = 38.4 ksi >= 0.44 FY = 20.2 ksi Fcr = 27.9 ksi + P" = 56.3 k - Bending Only (Section is compact, plastic yielding govems) Mn*=FvZ,= 90.6 kin -Mny=FyZy= 90.6 kin + - Combined Axial and Bending ChecksPr= '10.4k cr= 1.6 uation E3-2 M", = [\4n / C)u =54.3 k-in M"y = [\rln / 526 =54.3 k-in lnteraction ratio 0.481 <'1.0, OK + therefore Qc = 1.67 Ob = 1.67 Connections Upper - bracket consists of L-saddle welded to col, with SDS screws through beam Species = LVL Cd = 1.15 down Z r down = 2036 # Beam thk. = 1.5 in = 'l .60 uplift I No. SDS screws - 6 For downward bearing, 10449 - Brgplatelength= 9in=overhbngL= 3in- | Brg plate width = 3.5 in Brg plate thk. = 0.75 in I fc.r- = 623 psi, < 750, OK Cm, = 0.6 Cmy = 0.6 (beam column not subject to transverse loading between supports pet C24l Pelx = 78.3 k Pely = 78.3 k (elastic critical buckling resistance, Eq C2-5) Brr= 1 B.,y='l Mr,, = 2.6 k Mr,v = 7.8 k PrlPc = 0.31 >= 0.2 = Eq (H1-1a): Pr/Pc + 8/9 (Mrx/Mcx + Mry/Mcy )= fu - 12.8 ksi < 27 . OK Lower - bracket consists of bearing plate welded to col, with tab(s) to rim joisV blocking with SDS screws Adjusting for column weight, Poom = 10525 # Species = LVL P,p = 859 # Floor"beam"t= 3in Cd= 1.15down Zrdown= 1794# , 10525 - 1794 = fcr- = 323 psi, < 750, OK fu = 13.3 ksi < 27, OK Blockinq connection: blocking transfers 112 of uplift 1 12 Pup = 430 # fasten blocking with '15 ga. staples (or 10d x 3" nails) - to joists through ends: 8 through ends x 64# x 1.33 x 0.67 = 456 # Summary: Blazer lndustries, lnc. to rim through side:16 through side x 64# x 1.33 =1362 # 1818 #, > 430, OK - HSS3x3x3/16" ASTM A500 Grade B column with brackets top and bottom - Top bracket has 0.75" x 3.5" x 9" brg. plate and (6) SDSI/4xl .5 screws through plate to beam - Btm. bracket has 0.75" x 3.5" x 9" brg. plate and (4) SDSl/4x2.5 screws through plate to rim - Btm. blocking - fasten with min. (16) 15 ga. staples to rim, and (8) throuqh ioists to ends 19307 Jefferson County PUD calcs.xlsx P"=Pn/()"=33.7 k l_2832 OK Zt 2496 > 859 OK cQU2 Jefferson County PUD Wood Column Dale: 101212018 Location: End Columns Species/Grade: NominalSize: Number of studs = Dimensional lnformation [= 9'- 2.0" dr = 5.5 in Sx = 15.1 in^3 Ac = 16.5 in^2 lu1 = 110 in Kr = 0.80 el = 0.25 Ktr = 1.00 (solid) Loads (Lr or S) + D Pdown = W+0.6D Pup= Allowable Bendinq Stresses Erin'= 584 psi leb'l = 202 in Rer = 11.1 Fuer = 5671 CLr = 0.985 Fur'= 1325 psi DF#2 2x6 2 (if builtup) Member Design Values Base Values Fb = 900 Fc;; = 1300 Psif = 1600 ksi Adjustment Factors Co = 1.15 Cr(u) = 1'30 Cr1"1= 1'10 Cru = 1.15 ci(b) = 1'00 ci(E) = 1'00 Design Values (unadjusted for stability E'= 1600 ksi 0.14 k-in (aboutdr axis) Fb* = 1346 psi 0.41 k-in (aboutdz axis) Fc* = 1645 psi AllowableAxial Stresses (NDS15.3) c= 0.8 lecl = 88 in lec2= 36.667 let /dt = 16.00 lezldz= 12.22 in FcEl = 1877 FcE2= 3216 Cpt = 0.735 Cpz = 0.518 F"'= 852 psi <d2 governs> Combined axial/bending check dz= Sv lu2 =k- e2= Ktz = y0#{ 48#1 (NDS 15.3) leb2 = Rgz = FuEz = CLz = Foz'= 110 in 3in 8.3 in^3 36.7 in 1.00 0.75 0.60 (nailed) Mx= Mv= 67 in 2.6 104828 0.999 1546 psi Column Analvsis T_lc - t._lbx - t._lby - (NDS 15.3 and 15.4) 33 psi 9 psi 49 psi basic axial ratio = e1 effects = e2 effects = 0.001 0.014 0.064 Eq. (15.4.2) fc-L =66 < 750, OK Bearinq at Top of Golumn Bearing width = 1.5 in Bearing length = 5.5 in Beam species: LVL 2.0E Connections Species for fastener values = CD= Number of uplift straps = 0.148 x 1.5" nail Z'(1.6) = Req'd 10d nails for uplift = Ab= Fc-L = DF 1.6 (wind) 1 150.4 tb 0.3 8.25 in^2 750 psi lnstall(1) 5T2215 strap(s) to top and bottom of column w/min. 1 - 0.'t48 x 1.5" nails each way, on each strap. otal ratio =0.< 1.0 OK of column together with two rows of 0.131x3" nails @ 8" oc. - Extend one stud up along beam and fasten w/ min.6 - 0.131x3" nails. - lnstall tight-fit blocking to next stud at column 3rd points or window sill/hdr Column Notes: - Fasten blocki in floor for full under column- lnstall Blazer lndustries, lnc.'19307 Jefferson County PUD calcs.xlsx ,{ FLOOR/1 Mobile Modules Floor Joists - 12' multi Dimensional lnformation Total mod width = Width of rims = Joist Length = Rail to rail = Wall thickness = Cantilever = Wall height = Roof overhang = Loadinq Floor DL = Floor LL = Floor Conc. LL = Rim DL = Wall DL = Roof DL = RoofOH DL= 7 psf 50 psf 2000 # on 30"x30" - assume 2 joists carry 3.5 plf 8 psf 10 psf 0 psf NDS Desiqn Values/Coefficients Fb = 875 psi Cf = Fv = 180 psi Cr =f = 1600 ksi Cd = ci(b) = Factored Properties Ci(E) = F'b = 1208 psi F'v = 180 psi E'= 1600 ksi Q= l_= l= p= Q= S= != Total D at outside walls = Lr= 99.5 3.5 19.75 1.2 1.15 1.00 1.00 1.00 42 3 39 in in in in in in Joists Grade Size Spacing fi= $= t- l(comp) = DF#2 2xB 16 in o.c. 10.88 in^2 1 3.1 4 in^3 47.63 in^4 46.9 in^4 8ft 0in Roof Lr = 40 psf Analvsis Applicable load combinations are: - Maximum forces and deflections are obtained from RISA analysis - Concentrated loads will be resisted at unsupported edges by continuous rims-assumeK=10Uin - Deflections based on (L + KD) where K = 0.5, and composite section of joist and floor deck Results l= D+L 2- D + L(conc.) J= D+L+Lr l,= D+L(conc.)+Lrg= D+Lr | = D + Lside (cantileversonly)g= D+Lside+Lr g = D + Lctr (center span only) 10= D+Lctr+Lr Load Comb. 588 # near rim joist 1099 # near chassis rail 15.6 k-in 0.097 in at cantilever, = U 2O4 0.086 in at midspan, = ll 1157 Cd= Cd= Cd= 1.15 1.15 1.00 9.3 plf/joist 66.7 plf/joist 400 plf/joist 4.7 # al end 85 # at end 79 # at end 0#atend 169 # at end 316 #atend 1 2 ft 40 psf roof- 1 .xlsx V1 = Y2= Jvl = A1 = L2= 4 4 4 8 8 207 psi 2O7 psi 1208 psi F'v = F'v = F'b = Check Stresses Shear near rim joist tu= 1.5V1 /A= Shear near chassis rail tu=1.5Y2 lA= Max. moment fb=M/S= Blazer lndustries, lnc. <l= 1208 OK 81.1 151.5 1187 CH= <l= CH= <l= 1.00 207.0 0K 1.00 207.0 0K LAT/1 t (not to scale) Chords above sidewalls F = VL/8W = '1896 #, <l= V Jefferson County PUD Roof Diaph ragm Dale: 101212018 overall length = 60.00 ft Eave overhang = 0 in ridge-eave ht = 0.63 ft Overall width = 35.57 ft Gable Overhang = 0 in Load Aqainst Lenqth (sidewalls) (trans) roof area = J8 wind summed at roof is negative, so zero Wind: end trib area = 5.50 ft x 4a = 14.2 ft= 78 sf middle trib area = 5.50 ftx(L4a)= 45.8 ft = 252 st end p = 16.6 Psf V(W)calc= 4077 mid p = 11.0 Psf V(W)min= 4408 v(w)= 4/;o8 # Seismic: W(trib)= 62943 # SEISMIC CONTROLS V(E) = 8992 # load to end walls Max shearabove endwalls=Yl2= 4496 # Vwind= 2204 # Max unit shear = Vend/width = 126 plf Vseis= 3389 # note: V(E) uses diaphragm factor and Vseis uses wall factor per seismic sheetSheathinq: Case ! lnstall Framing species: DF MLine Boltinq Load Aoainst Width (endwalls) (long) 11591 0K Use min. 1-112" x 3-1/2" continuous LVL rim Total width of endwalls =35.57 clr = 17.787 ft xt o.c. plf OK ht@2a = 0.15 ht @rdg = 0.37 ft Wind: end trib. area = 5.50 A=2a(2wallh+h1)"112*2= 79 sf middle trib. area = 5.5 4=(W4a)(2wh+h1+r)-.5= 123 sf end p = 't6.6 Psf V(W)calc= 2674 mid p = 11.0 Psf V(W)min= 3236 v(w)= 3236 # Seismic: W(trib) = 62943 # SEISMIC CONTROLS V(E) = 8992 # load to side walls Max shear above sidewalls = V/2 = 4496 # Vwind= '1618 # Max unit shear = Vend/length = 75 plf Vseis= 3389 # note: V(E) uses diaphragm factor and Vseis uses wall factor per seismic sheet uce eave occur lnstall ST2215 bent from chords to Mline beams with 6 - 10d x 1.5 nails each end lnstall MLine bolt 8" from end x (not to scale) Sheathinq: Gase 3 lnstall: Chords above endwalls F = VL/8W = S66 #, </= rated sheathing (48/24), with as detailed belowfasteners a|12" in and at Dist. v to end demand S ing? allow 0 2 8 30 126 118 93 0 6 6 6 no no no no 190 190 190 OK OK OK OK Mline on qrid BIC Distance from end 'l 1.9 0.0 0.0 Distance from ctr. 5.9 Q(diaPhragm) = 46= 141 l(diaPhragm) = bh 3112 = 3751 avg. flexural shear =VQ/l= 84 1/2"Boltspacing= 6 0 0 V(allow) = 128 fasteners al12" in field, and at as detailed below nails Dist. v to end demand S n ing? allow. no no 75 0 6 140 0K 140 0K 0 17.79 Blazer lndustries, lnc. 1094 0K 19307 Jefferson County PUD calcs.xlsx t LAT12 Jefferson PUD FIoor Dale: 101212018 Overall length = 60.00 ft Load Aqainst Lenqth (sidewalls) (trans) Wind: Overall width =35.57 ft +V + ll2wallht= 4.50 ft floor joist depth = 0.67 1/2 skirUpony = 1.25 Tributary ht = 6.42 tl V(W)calc 2a = 7 .1 'tt 4758.39 Aends= 91.35 sf V(W)min Amid= 293.8 sf 6163 (not to scale) end p - 16.6 psf mid p - 11.0 psf v(w)= 6163 # Seismic: W(trib) = 36078 # WIND CONTROLS V(E) = 5154 load to end walls Max shear at ends = Yl2 = 3082 # Vwind= 3082 # Max unit shear = Vend/width = 87 plf Vseis= 1943 # Sheathins: Case ! lnstall Framing species: DF Modifier = 'l .00 Chords below sidewalls F = VL/8W = 1299 #, </= MLine Boltinq Rim species: DF 1159'l OK Use min. 1-112" x 3-1/2" continuous LVL rim Total width of endwalls =35.57 ctr = 17.787 fl xt xt plf o.c. plf OK Load Aqainst Width (endwalls) (long)Wind: A(trib) => Aends= 91 sf Amid= 137.03 sf end p = 16.6 psf mid p = '1 1.0 psf V(W)calc= V(W)= 3654# V(W)min= Seismic: W(trib)= 36078 # SEISMIC CONTROLS V(E) = 5154 load to side walls Max shear at sides = Yl2 = 2577 # Vwind= 1827 # Max unit shear = Vend/length = 43 plf Vseis= 1943 # 3029 3654 Sheathinq: Case 3 lnstall V eave occur (not to scale) Chords below endwalls F = VL/8W = 1087 #, <l=lnstall ST2215 bent from chords to MLine rims with 6 - 10d x 1.5 nails each end lnstall MLine bolt 8" from end fasteners at12" in and at x as detailed below Dist. v to end demand s Block- v ing? allow, 4 14 30 75 46 0 6 6 6 no no no no 185 185 185 185 OK OK OK MLine on B/C 11.9 5.9 141 3751 58 0.0 0.0from end Distance from ctr ra$m) = trd- l(diaphragm) = bh 3112 = flexural shear =VQ/l= 1 Bolt 144 fasteners at 12" in field as detailed below x and at APA allow. S ing?to end demand 43 0 6 6 no no 0 17.79 140 0K 140 0K Blazer lndustries, lnc. 1094 0K '19307 Jefferson County PUD calcs.xlsx LAT/3 Jefferson County PUD Shear Walls Date: 101212018 Endwalls on Grid 1 Total length of wall Wallheight Gable height lnt. wall height Trib. roof width 0 Panel openings 10 width ft 35.57 ft 10.00 ft 0.00 ft 8.00 ft 1.00 ft 20 Start ft Wall shear = 3389 # at top Seismic Controls Net DL multiplier = Q.46 (nominal loads adjusted below) DF studs: 1.00 fastener factor 14 12 10 8 6 4 2 30 Height Head ht ft ft 40 50 60 openings HD load tb 0.0 psf 5.5 psf 1.47 plf 7.0 plf 3.7 psf 3.7 psf 70 End ft Nom. P(uPlift) = 8.8 Roof DL = 12 Roof rim/other = 3.2 Net roof load = Ext. wall DL = 8 lnt. wall DL = 8 0 3 0 0 0 1 2 3 4 5 0.00 3.00 0.00 0.00 0.00 11.86 20.03 23.72 35.57 35.57 11.86 23.03 23.72 35.57 35.57 7 7 7 7 7 Mid-panel Panels able to take shear 3.00 width ft otalT ft of wall not useable for shear End Height Head ht Strap? ftftft 0.00 0.00 0.00 0.00 0.00 windows Start ft Roof Wall Effect DL tb lb Strap Load tb LF of lnt. lnt. wall wall lb width ft 1 2 3 4 5 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 no no no no no 0.00 0.00 0.00 0.00 0.00 HVAC wdth. 7.20 7T Width Start ft ft Use for shear? ft width ft Panel shear tb Req'd 10d nails 2 4 1 2 3 4 5 6 11.86 8.17 0.69 1 1.85 0.00 0.00 1 1.86 8.17 0.00 11.85 0.00 0.00 0.00 yes 1 1.86 yes 23.03 no 23.72 yes 35.57 no 35.57 no 1261 869 1260 0 8030 1056 436 301 436 83 57 83 0 0 0 0 0 0 5.5 7.2 0 803 5.5 Total 32.57 Net width = 31.89 Net width = 24.69 ft available after subtracting out all openings/unused panels/strapped windows. Unit shear above openings = 106 #/ft < 200 #lft Unit shear next to openings - '137 #lft < 200 #lfl At panel corners install (1) MSTC28 w/ min. 8 10d x 1 .5" nails to studs lnstall to frame w/ min 2 " of weld or 3 # 12 Tek screws lnstall 7/16'rated panel siding with .1 13 x 2 3/8" nails at 6" edge at 12" in field Blazer lndustries, lnc.19307 Jefferson County PUD calcs.xlsx LAT14 Jefferson County PUD Shear Walls Date: 101212018 Endwalls on Grid 2 Total length of wall Wallheight Gable height lnt. wall height Trib. roof width 35.57 ft 10.00 ft 0.00 ft 8.00 ft 1.00 ft Wall shear = 3389 # at top Seismic Controls Net DL multiplier - 0.46 (nominat toads adlusted betow) DF studs: 1.00 fastener factor 30 40 60 14 12 10 8 6 4 2 0 10 20 Panel Width Start End Height Head htopeningsftftftftft1 0.00 11.86 11.86 0 72 0.00 23.72 23.72 0 73 0.00 35.57 35.57 0 74 0.00 35.57 35.57 0 75 0.00 35.57 35.57 0 7 0.00 width ft ft of wall not useable for shear 70 Start End Height Head ht Strap? Width ftftftftft Nom P(uPlift) = 8.8 Roof DL = 12 Roof rim/other = 3.2 Net roof load = Ext. wall DL = 8 lnt. wall DL = 8 Strap Load tb 1.47 plf 0.0 psf 5.5 psf 7.0 plf 3.7 psf 3.7 psf otalTr Mid-panel windows 1 2 3 4 5 4.00 0.00 0.00 0.00 0.00 15.78 0.00 0.00 0.00 0.00 19.78 0.00 0.00 0.00 0.00 3.00 0.00 0.00 0.00 0.00 4.00 0.00 0.00 0.00 0.00 7.00 yes 0.00 no 0.00 no 0.00 no 0.00 no 191 <395#, OK HVAC wdth. Panels able to take shear 0.00 width ft Roof Wall Effect DL tb tb LF of lnt. lnt. wall wall lb Total 4.00 ft of integral openings Start Use for Width shear?ftftft Panel shear tb HD tb load Req'd 10d nails 1 2 0.00 yes 1 1.86 1 130 83 436 0 0 693 4.7 1 1 .86 yes 1 1 .86 1 130 83 436 0 0 693 4.7 23.72 yes 11.85 1'129 83 436 0 0 693 4.7 35.57 no 0.00 0 35.57 no 0.00 06 0.00 35.57 no 0.00 0 Net width = 31.57 ft available after subtracting out all openings/unused panels/strapped windows. Unit shear above openings = 95 #/ft < 200 #lft Unit shear next to openings - 107 #lft < 200 #lft 1 2 3 4 5 11.86 11.86 11.85 0.00 0.00 At panel corners install (1) MSTC28 w/ min. 5 't 0d x 1 .5" nails to studs lnstall to frame W min 1 " of weld or 2 # 12 Tek screws At strapped windows install (1) 30 ga. x 1.5" x 24" straps at each corner with 6 - 16 ga. widecrown staples each end lnstall 7/16" rated panel siding with .113 x 2 3/8" nails at 6" edge at 12" in field Blazer lndustries, lnc.19307 Jefferson County PUD calcs.xlsx 50 LAT/5 I Jefferson County PUD Shear Walls Dale: 1Ol2l2O18 Sidewallon Grid A Total length of wall Wallheight Gable height lnt. wall height Trib. roof width 60.00 ft 9.00 ft 0.37 ft 8.00 ft 5.92 ft Wall shear = 3389 # at top Seismic Controls Net DL multiplier = Q.46 (loads adjusted below) DF studs: 1.00 fastener factor 30 40 bU 14 '12 10 I 6 4 2 0 Panel openings 10 width Start ft 20 50 70 ft End Height Head ht ftftft Nom P(uPlift) = 8.8 RoofDL = 12 Roof rim/other = 3.2 Net roof load = Ext. wall DL = 8 lnt. wall DL = 8 0.0 psf 5.5 psf 1.47 ptf plf 1 2 3 4 5 6 4 7 4 4 7 4 no no no no no no 1 2 3 4 5 6 4.00 3.00 4.00 4.00 3.00 4.00 7 7 7 7 7 7 4.00 16.33 21.O0 35.00 42.17 52.00 8.00 19.33 25.00 39.00 45.17 56.00 3.7 psf 3.7 psf Total 22.00 ft of wall not useable for shear Mid-panel windows width ft width ft Strap Load lb Start End Height Head ht Strap? ftftftft 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Total 0.00 ft of integral windows Panels able to take shear Width Start ft ft Use for shear? ft width ft Panel shear lb Roof Effect tb lnt. wall tb HD load tb Req'd 10d nails Wall LF of DL lnt. lb wall 4 6 7 1 2 3 4 5 6 7 4.00 8.33 1.67 10.00 3.17 6.83 4.00 0.00 8.00 19.33 25.00 39.00 45.17 yes yes no yes no yes 4.00 8.33 0.00 10.00 0.00 6.83 409 851 1022 698 136 284 132 276 341 331 233 226 0 0 798 5.40 0 776 5.3 00 0 s96 4.1 0 0 0 703 4.8 56.00 yes 4.00 409 136 132 0 0 798 5.4 Total 38.00 Net width = 33.1 6 ft of designed shear panels Net width = 33.16 ft available after subtracting out all openings/unused panels/strapped windows. Unit shear above/below strapped windows = 102 #lft < 200 #Ift Unit shear next to strapped windows - 102 #lft < 200 #lft lnstall 7/16" rated panel siding with .'l 13 x 2 3/8" nails at 6" edge at 12" in field corners each 1) ST2215 w/ min 5 10d x 1.5" nails Blazer lndustries, lnc.19307 Jefferson County PUD calcs.xlsx 1 J LAT/6 Jefferson County PUD Shear Walls Dale: 101212018 Sidewallon Grid D Total length of wall Wallheight Gable height lnt. wall height Trib. roof width 14 12 10 0 20 30 End Height Head ht ftftft Panel openings 10 width ft 60.00 ft 9.00 ft 0.37 fl 8_00 ft 5.92 ft Start ft Wall shear = 3389 # at top Seismic Controls Net DL multiplier = !.46 (toads adjusted below) DF studs: 1.00 fastener factor 8 6 4 2 40 50 Nom P(uplift) = Roof DL = 12 Roof rim/other = 3.2 Net roof load = Ext. wall DL = 8 lnt. wall DL = 8 60 7A 4 4 4 4 0 0 1 2 3 4 5 6 4.00 4.00 4.00 4.00 0.00 0.00 8.67 18.00 29.75 56.00 60.00 60.00 7 7 7 7 7 4.67 14.00 25.75 52.00 60.00 60.00 34.1 plf 3.7 psf 3.7 psf 5.5 1.47 load psf psf plf Total 16.00 ft of wall not useable for shear Mid-panel windows width ft width ft Strap Load tb Start End Height Head ht Strap? ftftftft 1 2 3 4 5 6 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 no no no no no no Total 0.00 ft of integral windows Panels able to take shear Width Start ft ft Use for shear? ft width ft Panel shear tb LF of lnt. wall Req'd 10d nails Roof Wall Effect DL tb tb HD tb lnt. wall tb 1 2 3 4 5 6 4.67 s.33 7.75 22.25 4.00 0.00 0.00 no 8.67 no 18.00 no 29.75 yes 56.00 no 60.00 no 0.00 0.00 0.00 22.25 3389 759 737 0.00 0.00 0 642 4.4 0 0 0 0 0 07 0.00 60.00 no 0.00 0 Total 44.00 Net width = 22.25 ft of designed shear panels Net width = 22.25 ft available after subtracting out all openings/unused panels/strapped windows Unit shear above/below strapped windows = 152 #lft < 200 #lft Unit shear next to strapped windows = 152 #lft < 20O #lft lnstall 7/16" rated panel siding with .113 x 2 3/8" nails at 6" edge at'l2" in field panel corners each 1) ST2215 w/ min 4 10d x 1.5" nails Blazer lndustries, lnc.19307 Jefferson County PUD calcs.xlsx FND/1 Jefferson County PUD Foundation Date: 101212018 For "block & level" foundation under building with mobile frames, using tiedowns Deadloads Liveloads Roof(max) 12 psf Roof 40 psf Roof rims/Parapets 3.2 plf Floor UDL 50 psf Exterior wall 8 psf Partition load 0 psf Floor 7 psf Floor Conc. 2O0O # over 30" x 30" Floor rim perimeter 3.2 plf Floor rim Mline 3.2 pll Chassis 12 plf per rail, plus 150 # for ends and misc. Dimensional lnformation # of Modules = ! Maximum wall height I ft perimeter support? (y/n) n Module width 11.83 ft Eave overhang 0.00 in Footinqs (Column and other point-load footings specified elsewhere) q(allow) = I500 Psf assumed Standard ftg = 16 " square by 4 " deep* >> !( = 146 # incl CMUs Q(allow)= 2521 # *pad may be 4" deep if extends past pier edge no more than 4" Loads Max. Soacino lf applicable, perimeter sidewall 0 plf 0.0 ft (perimeter takes roof load only) Frame rail adjacent to exterior wall 732 plf 3.4 ft Frame rail adjacent to interior space (no roof) floor load only (no partion) .75 (floor + partition) Perpendicular to sidewalls Floor Roof Floor for 1500 psf 7.2 ft 9.5 ft max = 352 plt Max. tb # of Tiedowns ired 6778 61 63 Total 7 perp. to sides 6778 3885 Total 6.8 perp. to ends 3s2 266 plf plf Tiedowns The safe working load for a tie-down strap = 3150 # lf the maximum angle from horizontal is 60 deg, the min. horizontal resistance = 3150 x cos 60 = 1575 # Tiedowns required for each direction are calculated below. Note that frictional resistance of the foundation isn't utilized. Tiedowns based on lateral loads Wind Seismic lb lb 4408 6163 3236 3654 6778 3885 6778 3885 4.3 3.9 4.3 2.5 Exterior walls lnterior space Footing options W # qa psf Qa # smax ft Spacing ft in smax ft Spacing ft in 16 x 16 x 4" precast 146 146 146 1 000 '1500 2000 1632 2521 3410 2.2 3.4 4.7 2-3 3 -6 4 -8 4.6 7.2 9.7 4 -8 7 -2 9 -9 2x12x24" Pf 80 80 80 1 000 I 500 2000 1795 2733 3670 2.5 3.7 5.0 2-6 3 -9 5 -1 5.1 7.8 10.4 5-2 7 -10 10 - 5 Perpendicular to endwalls FND/2 Jefferson County PUD Column Footing Date: 101212018 lnterior Column Loads Roof beam Floor - DL -LL trib. width trib. length Rim DL 10449#x2modules= 7 psf 50 psf 0ft 0ft 3.5 plf Floor = 120 # 20898 # 0# Total = 21018 # Footinq Col c1 = 5.5 in Rebar fy = Col c2 = 7.25 in Concrete fc = Footing bl = 48 in ud" - Footing b2 = 48 in Q(allow)= Footing depth = 12 in, Wt - 2320 #>> q = Strenqth desion of footino Conservativelyestimate(tot) = 1.4(20%) + 1.7(80%) = 1.64 "Cantilever" dist. = 21.25 in qu = Footing b = 48 in Mu = As(min), flexural - 1.02 in^2 (or less if ULR < 0.67) As(min), shrnUtemp = l.O4 in^2, >> As = Stress block "a" = 0.82 in OMn = 60 ksi 2500 psi 8.5 in 1500 psf 1459 psf < 1500, OK 2392 psf 180.0 k-in 7 #4 bars 1.40 in^2, OK 679.4 k-in > 180, OK ULR = 0.26 Check flexural shear Portion of footing loading critical section Factored shear x= Vu= 0Vc = 10 in 8.0 k 34.7k>8,OK Check punchinq shear Column factored load Critical perimeter Pu= bo= Vu= OVc = 34.5 k 60 in 30.8 k 43.0k>30.8,OK Footing is 48 x 48 x 12", with 7 - ll4 bars each way Place rebar with 3" clearance to btm Wood Option Ar = P/q(allow) = 14.01 sf Wood = Ar(1 44)l (7 .5' 48)= Alternative: 5.6 Provide (6)6x8x48" PT timbers side by side on grade with timbers and CMU on top. Blazer lndustries, lnc.19307 Jefferson County PUD calcs.xlsx ) ) 2015 WSEC Compliance Forms for Commercial Buildings including R2, R3, & R4 over 3 stories and all Rl Revised Ocl20'17 Pro ect Summa 1 PROJ.SUM General Info PROJ-SUM form shall be provided as a cover sheet for all compliance form submiftals. Project Title shall match project plans title block. Date L0 / a /20L8 For Building Department Use Proiect Description Select all that apply to the scope of project. Select Addition + Existing or Alteration + Existing if the existing building will be combined with the addition or alteration to demonstrate compliance per Section C502.1 orC503.1. New Construction and Additions E N"* Building E Building Addition Existing Building Retrofit ! A[eration ! cnange of ocarpancy ! xistorlc Building Building Elements Scope - Select all that apply E etr B auitoing Envetope B service Hot water Systems I t-ighting Sptems I Cnange in Space Conditioning I Mechanical Systems B ercctricat Systems Occupancy Type O All Commercial Q Group R - R2, R3, & R4 O Mixed Use over 3 stories and all R1 Nlxed Use - Building is greater than three sfones above grade and it has both Commercial and Group R occupancies. lllxed Occupancy - Building is three stories or less aboye grade and it has both Commercial and Group 12, R3 or R4 occupancies. Select All Commercial to document compliance forthe commerciat areas of the building. The residentialspaces sl,a/ comply with the WSEC Residential Provisions. Space Conditioning Categories Select all that apply to the scope of prcject B frtty Conditioned ! Semi-heated2 E lo* Energy Space CategoqP Eligible Low Energy Spaces I Unconditioned l-'l Wireless serviceu equipment shelter ll Refrigerated Spaces - (Warehouse and/or Walk-inl) f] Low energy heating/cooling capacity n Greenhousea ! Equipment building Floor Area and Stories Floors Above Grade Building Gross Conditioned Floor Area Project Gross Conditioned Floor Area 2,039 2,0391 General Compliance Path @ Compliance Method 1 - General Q Compliance Method 2 - Total Building Performance Compllance Method 1 - Projects shall demonstrate ampliance with all applicable mandatory and pregcTrptiue requirements of this code. Refer to C401.2, ltem 1 for more information. CompliAnce forms to include with a Prescriptive submittal: All applicable ENV, LTG, and MECH. Compliance Methgd 2 - Projects complying via total building performance (TBP) shall include a summary of results from a whole building energy model per Section C407 and shall demonstiate compliance with all applicable mandatory provisions in this Code. Refer to Secfion C401.2, ltem 2 for more information. Compliance forms to include with a TBP submittal: PROJ-SUM, ENV-CHK, LTG-EXT, LTG-CHK, and all MECH forms except MECH-ECONO and MECH-VENT (pending). Note 1 - Refigerated Spaces - They shall comply with the envelope and refrigeration equipment requirements in Secfion C410. Warehouse coolers and freezers sh.all also .coqtply wilh the envelope requirements in C402. C410 tak6s precedent for overlapping requirements. Note 2 - Semi-heated Spaces - lf heated with equipment other than electric resistance may take an eiemption for wall insiliatidn. All other envelope assemb/ies shall comply with the thermal envelope provisions. Note 3 - lxemptions_ For Low Energy Spaces - Low Energy spaces are exempt from all provisions in WSEC Secfion C402 Building Envelope, however all other applicable provisions in the Code do apply including lighting, mechanical, seruice water heating, etc. Note 4 - Eligible Space Conditioning For Low Energy Greenhouses - Greenhouses are defined as spaces that maintain i specialized suntit environment thal is used.exclusively for cultivation, protection and maintenance of plants. Cooling with outside air'and/or evaporative cooling, and any form of heating equipment, are allowed under the Low Energy Greenhouse category. Greenhouses with co6ling equipment that requires a condensing unit are NOT eligible. 2015 WSEC Com pliance Forms for Commercial Buildings including R2, R3, & R4 over 3 stories and all R1 Revised Ocl2017 General Info Project Title:19307 DS Jefferson County PUD 36x60 Office Date t0/4/2078 C405 Additional Efficiency Package Options Summary A minimum of two Options are required for new construction, and change in space conditioning or occupancy projects. Select all Options included in the current project scope. A/so se/ect Options complied with under previous projects (shell and core, other tenant spaces in building, etc) Buildings with multiple tenant spaces may comply with different options (mix & match). Options are required for all sp ace cond iti o n i n g categorie s. I ncl ud e d isci pl in e spe cifi c information for C406 options in ENV-SUM, LTG-SUM and Refer to SBCC website for offici al interpretations regarding C406 provisions. Building level efficiency options:Current Scope Previous Projects C406.8 Enhanced envelope performance tr E C406.9 Reduced air infiltration E E C406.5 On-site renewable energy tr tr Building area level efficiency options C406.2 More efficient HVAC equipment n tr C406.6 Dedicated outside air systems (DOAS)E E C406.7 Reduced energy use in service water heating n tr C406.3 Reduced lighting power E E C406.4 Enhanced digital lighting controls E E G406 Comments Pro ect Su 2 PROJ.SUM I nvelope Summa ENV.SUM ' . 2015 WSEC Compliance Forms for Commercial Buildings including R2, R3, & R4 over 3 stories and all Rl Revised Ocl20'17 Proiect Info Applicant lnfo. Provide contact information for individual who can respond to inquiries about information provided. Project Title 19307 DS Jefferson County PUD 36x60 Office Date L0 / 04 /20L8 Company Name: Blazer lndustries, lnc.For Building Department Use Company Address: 945 Olney St., Aumsvllle, OR 97325 Applicant Name: Jamle Holmes Applicant Phone: 503-749-1900 Applicant Email: James@blazerlnd.com Project Description I tte* Building I aOOition f] Alteration ! No Envetope Scope Envelope Project Scope Select all that apply. B Al Cormercial I Group R - Commercial I UixeO Use - Commercial + Group R E Semi-heated n Refrigerated Cooler f] Refrigerated Freezer ! Equipment Building Envelope Description Provide bief description of the proiect and relevant su p porti ng doc u me ntatio n. lf project includes multiple Target lnsulation Allowance areas, and/or is demonstrating compliance as an Addition + Existing, Afteration + Existing, or Addition + Alteration + Existing project, provide a bief summary of the approach to New triple mod office buiEing-Plan set sheets T-1 to S-1 Air Barrier Testing Air barrier testing is required for all new construction projects. Testing criteria is 0.40 cfm/ft2 under test pressure of 0.3 inch w.g. To comply with C406.9, demonstrate that measured air leakage of building envelope B Air banier testing per Section C402.5.1.2 included in project scope ! eaOitionat Efficiency Package Option - C406.9 Reduced Air lnfiltration ! Testing not required. Explanation: Compliance Documentation Scope and Method Scope of This Calculation B N"tn Building ! eooition ! Aheration I No Envelope Scope Target Insulation Allowance Sets the title and calculations in tha compliance forms. Selection required to enable forms. Q futry Conditioned - Commercial, Group R, Mixed Use Q Semi-heated O Refrigerated Cooler Q Reftigerated Freezer lf project includes more than one Target lnsulation Allowance area, and/or if project includes addition and afteration areas complying independently, for each area complete an ENV-SUM form Rows 16-46 and either an ENy-PRESCR/PTIVE form, or ENV-UA + ENy-SHGC forms if demonstrating compliance via component pertormance. Envelope Compliance Path Se/ectlon required to enable forms. Q Prescriptive O Component Performance Component Performance Calculation Adjustments ! Cnange of Occupancy (C503.2) / Conditioning (C505) - 10% higher IJA attowed ! RaOitionat Efficiency Package Option - C406.8 Enhanced Envelope - 15%o tower IJA requircd Additions Q loaition stand atone Q eooition + Existing Addition stand alone - Complete Vertical Fenestration and Skylight Area Calculation. Enler total existing-to-remain wall, roof, veftical fenestration and skylight areas as DOSIING. Enter total addition envelope assembly arcas as NEW. lf resulting total building WWR excaeds 30%o and/or SSR exceeds 5%o, refer to C502.2.1 and C502.2.2 for prescriptive compliance aftematives. lf complying via component peiormance, complete ENV-UA per instructbns for addition stand alone projects. Addition + existing - Complete ENV-UA per instructions for addtion + existing prcjects. Alterations - Fenestration and Skylight 5 Replacement windows only, or resultingu total bullding WWR < original \A/WR ll Replacement skylights only, or resulting " total building SRR s original SRR f] fotat building wwR increased by alteration ! fotat building SRR increased by alteration WWR and SRR not increased - Vaftical Fenestratbn and Skylight Area Calculation not required. WWR and/or SRR increased - Complete Verlical Fenestration and Skylight Area Calculation. Enter total existing-to+emain wall, roof, veflical fenestration and skylight areas as EXISIING. Enter total altered envelope assembly areas as NEW. lf resufting total building lllWR exceeds 30/o and/or SSR exceeds 5%o, refer lo C503.3.2 and C503.3.3 for prcscriptive compliance afternatives. lf complying via component pefformance, complete ENV-UA per instructions for alteration + existing projects. ' 2015 WSEC Compliance Forms for Commercial Buildings including R2, R3, & R4 over 3 stories and all R1 Revised Ocl2017 Envelope Summdry, pg. 2 ENV-SUM Project Title:19307 DS Jefferson County PUD 36x60 Office Date L0 /04 /20L8 Vertical Fenestration and Skylight Area Calculation Prescriptive Path - Enter envelope sfvalues directly into lhls seclion of ENV-SUM for vertical fenestration, skylights, net walls and roof. For Additions and Afterations, refer to lhese secllons in ENV-SUM for fufther instructions. Component Pertormance - When this Envelope Compliance Path is selected, wite- protection of this section is enabled. Enter envelope sf values for all assemblies into the ENV-UA form. Envelope information from ENV-UA will auto-fill into this section of ENV- Total Vertical Fenestration Area (rough opening) NET Exterior Above Grade Wall Area Total Skylight Area (rough opening) NET Exterior Roof Area New 117 1,772 0 2,039 Existing 0 0 0 0 Total 1'.17 1,772 0 2,039 Vertical Fenestration-to- Wall Ratio (WWR) 6.2%Skylight-to-Roof Ratio (SRR) Vertical Fenestration Area Compllance VERTICAL FENESTRATION AREA COMPLIES WITH MAXIMUM ALLOWANCE Skylight Area Compliance NO SKYLIGHT PROPOSED. COMPILIES WITH MAXIMUM ALLOWANCE. Vertical Fenestration Alternates Show locations of qualifying daylight zone (DLZ) areas and ft2 on project plans. For Daylight Zone Area Calculations - a) Sidelight areas include pimary + secondary daylight zone areas. b) lnclude overlapping toplight and sidelight daylight zone areas under Toplight. c) Net floor area definition in Chapter 2. Q Xigtt performance fenestration U-factors and SHGC pet C402.4.1.3 Q DeOicateO outdoor air system per C402.4.1 .4 and C403.6 Q ln buildings :3 stories, 25Yo or more of NET floor area is in DLZper U02.41.1 Q ln buildings < 3 stories, 50% or more of CONDITIONED floor area is within DLZ per C402.4.1.1 Daylight Zone Calculations Daylight Zone Fenestration Alternate Sidelight Daylight Toplight Da/ight Percent Daylight Not Selected. No Calculations ired Zone Area Zone Area Zone Area Spaces in Single Story Building Requiring Skylights ln these spaces a minimum of 50% of the floor area shall be within a skylight daylight zone (DLZ). Referto C402.4.2for requirements. SRR = Sky/rght to roof ratio List all enclosed spaces that exceed 2,500 ft2, have ceiling height greater than 1 5 ft, and are space types required to comply with this provision. lndicate aperture with "AP" prefix (AP 1.1%) Space Area DLZ Area SRR or Aperture Exception Envelope Exemptions Low Energy and Semi-heated Spaces Low energy spaces per C402.1.1 ltem 1 are exempt from the thermal envelope provisions. Semi- heated spaces heated by systems other than electric resistance are exempt from wall insulation provision only per C402.1.1.1. Complete Low Energy and Semi-Heated Spaces table in MECH-SUM to venfy eligibility based on installed peak heating and cooling capacity per sf. Equipment Buildings Equipment buildings are exempt from the thermal envelope provisions per C402-1.2. The following shall be met to be eligible: building size < 500 sf, average wall/roof U- factor < U-0.20, electronic equipment load > 7 watts/sf, heating system output capacity < 17,000 btu/h. Cooling system capacity not Wall lnsulation R-Value Roof lnsulation R-Value Overall Average U-Factor Equipment Building Envelope Electronic equipment power (watts/sO Heating system output capacity (Btu/hr) Cooling capacity (Yes/No) 2015 WSEC Compliance Forms for Commercial Buildings including R2, R3, & R4 over 3 stories and all R1 Revised Oct2017 Envelo Re uirements Summa 1 ENV.REQ MinimUm ReqUifemgnfg lhls table summaizes presciptive compliance requirements for opaque elements and fenestration. Refer for prescriptive Compliance to Tables .C402.1 .3, C102.1 .1 and C402.4 in the 2015 WSEC for impodant footnotes that apply to fhese fables. Refer to Section C402 for all applicable requirements for each envelope element type and applicable exceptions. Referto Section C410 for all applicable information for refrigerated spaces. Prescriptivc Path Table C402,1.3 Notcs l'7 Insulation Minimum R-Value Tablc c402.1.4 Notcs l'2 Assembly Maximum U-factor Occupancy GrouD AII Other Group R All Other Group R Opaque Elements Roofs Insulation Entirely above Deck R-38 c.i R-38 c.i u-0.027 u-0.027 Metal Buildins (with thermal spacer block) Not" 3 R-25+R-ll Ls R-25+R-ll Ls u-0.031 u-0.03r Attic and Other R-49 R-49 u-0.021 u-0.021 Joist or single rafter R-49 R-49 u-0.027 u-0.027 Walls, Above-grade Mass R-9.5 c.i. Not" 6 R-13.3 c.i u-o- l 04 Not" 6 u-0.078 Mass transfer deck slab edge No R-Value for prescriptive con,pliance u-0.200 u-0.200 Metal Building R-19 c.i R-19 c.i.u-0.052 u-0.052 Steel Framed R-13 + R-l0c.i R-19 + R-8.5 c.i.u-0.055 u-0.055 Wood Framed and Other R-21 w/ int. frame R-21 w/ int. frame u-0.054 u-0.054 Below Grade lroil No'" 4 Same as above grade Same as above grade Floors Mass R-30 c.i R-30 c.i.u-0.031 u-0.031 Steel Joist R-38 + R-10 c.i R-38 + R-10 c.i.Lr-0.029 u-0.029 Wood Framed and Other R-30 R-30 u-0.029 u-0.029 Slab-On-Grade Floors Unheated R- I 0 for 24 in. (from top of slab)F-0.54 F-0.54 Heated Not" 5 R- I 0 perimeter & under entire slab F-0.55 F-0.55 Opaque Doors Swinging No u-0.37 u-0.37 Nonswinginq (Roll-up or slidins)R-4.75 R-4.75 u-0.34 u-0.34 Table C402.4 - 0-30% ofwall area, or j0%-40% per Section C402.4.1.1 DLZ or Section C402.4.1.4 I|OAS Section C402.4. l. 3 High Perform anee Fenestration Option - 0-40% ofwall area Fencstration Assemblv Maximum U-factor Notes l'2 Vertical Fenestration Nonmetal framing u-0.30 u-0.30 u-0.28 u-0.28 Metal framing (fixed)u-0.38 u-0.38 u-0.34 u-0.34 Metal framing (operable)u-0.40 u-0.40 u-0.36 u-0.36 Entrance doors u-0.60 u-0.60 u-0.60 u-0.60 Skylights Skylights u-0.50 u-0.50 u-0.s0 u-0.50 Fenestration Assembly Maximum SHGC Factor Vertical Feneslration PF<0.2: north - SHGC:0.53; all other SHGC:0.4 0.2 < PF < 0.5: north - SHGC-0.58; all other - SHGC-0.48 PF > 0.5: all orientations - SHGC-0.64 PF<0.2: north - SHGC:0.46; all other SHGC=0.35 0.2 < PF < 0.5: north - SHGC-0.51; all other - SHGC-0.42 PF > 0.5: all orientations - SHGC-0.56 Skylishts SHGC-0.35 SHGC-0.35 C410.2 Refrigerated Spaces Insulation Insulation Minimum R-Value Assembly Maximum U-factor Freezers - ll/alk-in and llarehouse Roof / Ceiling R-32 u-0.030 Wall R-32 u-0.030 Door R-32 u-0.030 Door - transparent reach-in triple-pane, heat-reflective treated or gas Floor R-28 u-0.035 Coolers - llalk-in and Warehouse Roof i'Ceilins R-25 u-0.039 Wall R-25 u-0.039 Door R-25 u-0.039 Door - transparent reach-in double-pane, heat-reflective treated & gas fill, or comply with freezer door req Floor No Requirement 20f5 WSEC Forms for Commercial including R2, R3, & R4 over 3 stories and all R1 Revised Ocl2017 Definitions: Ls = Liner system -- A continuous membrane installed below the purlins and unintemrpted by framing members. Uncompressed, unfaced insulation rests on top of the merlbrane between the purlins. Refer to Section A102.2.5.4. c.i. = Continuous insulation -- Insulation that is continuous across all structural members without thermal bridges other than service openings and penetrations by metal fasteners with a x-sectional area of less than 0.04%o ofthe opaque surface area ofthe assembly. Components with more than0.04oh metal penetrations may be eligible to follow the altemate CI values below. int : Intermediate franring -- Includes insulated headers, comers and interior partition wall to exterior wall intersections. Refer to Section A I 03.2 for franring definitions. Summary: Each table in the 201 5 WSEC has footnotes applicable to specific information provided in the table. This footnote summary provides only abbreviateddetailsfromthesefootnotes. Referto20l5IVSECforcompletefootnoteinformation. Note I - Assembly descriptions can be found in Chapter 2 and Appendix A. Note 2 - Use of assembly U-factors, C-factors and F-factors from Appendix A and Chapter 3 are required unless otherwise allowed by the provisions of this Code. Note 3 - For metal building roofs where using R-value compliance method, a thermal spacer block with minimunr thickness of I /2-inch and minimum R-value of R-3.5 is required. Otherwise use the U-factor compliance method. Note 4 - Where heated slabs are below-grade, they shall comply with the F-factor requirements for slab-on-grade heated slabs. Note 5 - Heated slab F-factors shall be determined specifically for heated slabs. Unheated slab F-factors shall not be used. Note 6 - CMU walls in all occupancies other than Group R may be eligible for reduced insulation if all provisions stated in applicable footnote aremet. RefertoFootnote D in Table C402.1 .4 orFootnote C inTable C402.1.3 foreligibilityrequirements. Note 7 - Components with continuous insulation but with metal penetrations / connections may be eligible for alternate continuous insulation R-values if all provisions in applicable footnote are met. Refer to alternate prescriptive R-values in table below and Footnote G in Table C402.1.3 for eligibility requiremenrs. Alternate continuous insulation nominal R-values This altemate nominal R-value compliance option is allowed for projects complying with all of the following: l. The ratio ofthe cross-sectional area, as measured in the plane ofthe surface, ofmetal penetrations ofotherwise continuous insulation to the opaque surface area of the assembly is greater than 0.0004 (0.04%),but less than 0.0012 (0.12%). 2. The metal penetrations ofotherwise continuous insulation are isolated or discontinuous (e.g., brick ties or other discontinuous metal attachments, offset brackets supporting shelf angles that allow insulation to go between the shelf angle and the primary portions of the wall structure). No continuous metal elements (e.g., metal studs, z-girts, z-channels, shelfangles) penetrate the otherwise continuous portion ofthe insulation. 3. Building permit drawings shall contain details showing the locations and dimensions of all the metal penetrations (e.g., brick ties or other discontinuous metal attachments, offset brackets, etc.) ofotherwise continuous insulation. In addition, calculations shall be provided showing the ratio ofthe cross-sectional area ofmetal penetrations ofotherwise continuous Alirdlbrfl aa6a.rt H.ra.(t. a.ffirf Ali.rtt ?lbr tt rirrjlia ritl a.td paaadflrr gr.rar 6ar a.altl t t Ir3 llr a-atta aad D.a.dtrritra.tr ta tr .rF{ t a.Iia rd h3 tr al2ra B-9.Jci R-llrci n-tki R-ll.aci R-la3c!R-tr.?ci R-t3Jcj R-16.6d R-lt3d R-I5:ci R-l9.Oci B-2lci R-3Oci Bn&i R{2ci R-3&i R.{tci R-53d n-13 +Ir.ici R-13 +R-9.rki R.l3+R-103c! R-!3 +R-lOci B-13 + R-12.5<i R-13 + R-lt.&i B-t3 +R-llJci n-l] + R-15.&i R-t3+B-l7.2ci R-13+R-l:ki R-13 +R-163d R-13+B-l7.gci B-19 + B{.5ci R-19 + R-l0.6ci R-19 + R-lt.?ci R-19+R-l.ki B-19 + R-l?.5ci R-19 + B-l9.2cl R.l9+8.-l6d R-19 + R-20ci R-19 + n-Zlci R-20+ R-3.&i R-20+n4.&i R-20.+8.-5&i n-21 + n-Jci R-21 +R{3ci l-21 +R{3ci End of Envelope Requirements Summary irements S E2 Gorn onent Performance Path 1 ENV.UA Project Title:19307 DS Jefferson County PUO 36x60 Office Date LO / 04 / 2OLg Target Insulation Allowance Fully Conditioned Space - Commercial, Group R, Mixed Use Calculation Adiustments None Applied Fenestration Area as % gross above-grade wall area 6.2% Max. Target: 40.0% Skylight Atea as % sross roof area 0.0o/o Max. Target: 5.0% Vertical Fenestration Alternates:Dedicated Outdoor Air System For Building Department Use Net WallFor Stand-alone Proi Existing-to-remain Areas ects13,1a Vertical Fenestration Skylights Net Roof User Note Building Component Cavity+Cl lPlan/Detail # lU-factor Source & Table # 2 Proposed UA U-factor x Area (A) = UA (U x A, Target UA U-factor x Area (A) = UA (U x A) 0 .021xoq)o ft= fl= fl= Above Deck lnsulation U-O.027 0. 031E 6 R= Q= Q= Metal Building u-0.031 o .027 2039 55. 1t .9o-R= R= R= 24+ 17.4 ci A-2 R-24 blow in cellulose and R- t 7.4 rigid above deck 0.024 2039 48.9 JoisVsingle rafter u-o.027 0.021 o ootr c o R= R= ft= 2015 WSEC Appendix A Table 4102.1 used COMcheck under 2015 IECC for calculation of assembly Single raft, attic, other U-0.021 0.055 o)q) a R= R= R= Steel/metal frame u-0_055 0.052!i m R= R= R= Metal Building u-0.052 0. 054 t132 93. 5E !oo E R= 21 Q= ft= A-2 2015 WSEC Appendix A Table A103.3.1(5) 0.053 1732 91 .8 Wood Frame, other U-0.054 0.10{oo(s = R= R= R= Mass Wall u-0.1 04 0.200 o 6 o o o. G =o =g Go- o oc(o F R= ft= Q= Mass Transfer Deck U-0.20 0.0?8uolo o aao ft= Q= R= Group R Mass Wall U-0.078 0. 104E Eoo R= R= R= Assumed to be Mass Wall U-0.104 0. 078tr o-fo o R= R= R= Assumed to be Mass Wall U-0.078 0.031 aG = R= R= R= Mass Floor u-0.031a oo TL Do E6 TL 30 5 WSEC Appendix A Table A105.1(1)0.029 5810 2039 59. 1 0.029 2039 59. 1 58 10 u-0.029 UA 200 Component Performance Compliance (UA)UA COMPLIES 2015 WSEC Forms for Commercial Buildings including R2, R3, & R4 over 3 stories and all R1 Revised Oct2017 UA Page 1 Subtotal !6 =oE(! oI o A-2 JoisUFraming 208 2015 WSEC Compliance Forms for Commercial Buildings including R2, R3, & R4 over 3 stories and all R1 Revised Ocl2017 Areal UA Areal UA TO COMPLY - The Proposed Total UA shall not exceed the Target Total UA. Page 2 Subtotal Page'l Subtotal Project Total Cbrn onent Performance Path 2 ENV.UA Project Title 19307 DS Jefferson County PUD 36x60 Office Date 10 / 04 / 20La Feneshation Area as % gross above-grade watt area 6.2% Max. Target: 40.0%For Building Department Use Skylight Atea as % gross roof area 0.0o/o Max. Target: 5.0o/o Building Component lns. R lPtan/Detail # lf-factor Source & Tabte # 8 Proposed UA F-factor I x Perimeter l= FP(r x P) Target UA F-factor x Perimeter = UA (U x A) ot5 G o C -osa E o) oo!cf R= R= R= 0.540 Slab-On-Grade F-0.54 !q) o ID- Q= Q= R= 0.550 HeatedSlab-On-Grade F-0.55 Schedule lD U-factor Sources'10 U-factor x Area (A) = UA (U x Al U-factor x Area (A) = UA (U x A) a o o o) .c CDc't a Door #1 Manufacturer o.37 40 14.8 0.370 40 14_8 Opaque Swing Doors U-0.37 oE o 0.340 Opaque rollup & sliding U-0.34 co E oocoII 6o o E o coz Windows #1 & 2 Manufacturer 0.29 117 33. 9 0 .30 LLl 35. 1 Non-Metal Frame u-0.30 !oxE (E o 0. 38 Metal Frame, Fixed U-0.38 o o o) = 0.40 Metal Frame, Operable U-0.40 ooc(E Co 0. 60 Metal Entrance Door U-0.60 ot.9 v U) aoo- F 0 .50 All types u-0.50 Refrigerated Space Freezer Floors Cf lpfanqetail # lu-factor Source & Table # 2 Proposed UA U-factor x Area (A) = UA (U x A, Target UA U-factor x Area (A) = UA (U x A) OsNOOo E r,Ltr R= R= ft= L57 49 Freezer Floor 58 10 200 5967 249 L57 50 5810 208 5 957 258 Component Performance Compliance (UA)UA COMPLIES Refrigerated Space Windows In Poors 11,12 Plan/Detail #Description cooler / Freezer Double Pane Glass Triple Pane Glass lnert Gas Filled Heat Reflective Treated Glass ooo .E CDC.N o o ooo c .c Eo Gou ,Vore', i lf veftical fenestration or skylight area exceeds maximum allowed per C402.4.1, then Target Area Adjustment of all appticable envelope elements will be calculated automatically by the compliance form. Refer to Target Area Adjustments worksheet for this calculation. - Note 2 - Opaque assembly U-factors shall come from Appendix A or be calculated per approved method as specified in C402.1.5.1.' {t-ofe q - P-roposed CMU mass wall in non-Group R that meet Table C402.1.4 Footnote D requirements can enter the target u-value of 0.104. Note 1 - Semi-heated spaces - For spaces eligible for this wall insulation exception, the UA calculation excludes all wall Assemblies. However, wall area values are required to run the window-to-wall ratio calculation. Enter into form all wall types in the semi-heated space. Enter the sf area of each wall type and enter "1 " for the U-factor. Nofe 5 - Mass transfer slab edges must be covered with an assembly having an overall U-factor of 0.2. i\lofe 6 - Demising walls, doors, and vertical fenestration separating spaces with different degrees of space conditioning (unconditioned, semi-heated, fully conditioned) shall be included only on the ENV-UA form for the space with the greatest degree of space conditioning. Note 7 - List Group R above grade mass walls here. List all other above grade walls, Commercial and Group R, in the Opaque Walls - Above Grade section. Note 8 - Slab-on-grade F-Factors shall come from Appendix A or calculated per approved method as specified in C402.1.5.1. IVote 9 - Opaque door U-factors shall come from Appendix A or calculated per approved method as specified in C402.1.5.1. A door is defined as opaque if less than 50% of the door area has glazing. Note 10 - Fenestration assembly U-Factors shall be the manufacturels NFRC product rating, which includes the glazing and frame, or shall be the default value per Section C303.1.3. Note 11 - Refrigerated Coolers - Target U-factors for cooler roof, wall and door assemb/les are per C410. Enter proposed information under the most similar assembly type. Target F-factors for slab-on-grade floors are per C402. Target U-factors for floors that separate a cooler from a non-cooler space (unconditioned and conditioned) are per C402. Target U-factors for veftical fenestration (not within cooler doors) are per C402. Enter only the opaque portion of refrigerated space doors. Windows within doors and reach-in display case doors shall comply with C410 p re sc ri ptive re q u i re m e nt s. Note 12 - Refrigerated Freezers - Target U-factors forfreezer roof, wall and door assemblies are per C410. Enter proposed information under the most similar assembly type. Target U-factor for insulated freezer floors is per C410. lnsulation is required under the entire freezer floor. Enter proposed information in the Freezer Floor section. lf the freezer floor assembly rests on top of a standard floor, the veftical edge of the freezer floor shall be entered as a secfion of freezer wall. lf freezer floor insulation is installed as integral to or applied underneath a slab-ongrade or exposed floor, this floor area shall be thermally broken from the surrounding floor. Enter proposed thermal break information in the Freezer Floor section and note it as ln-Floor Thermal Break. Enter only the opaque portion of freezer doors. Windows within doors and reach-in display case doors shall comply with C410 presciptive requirements. Note 13 - Stand alone projects - Enter total existing-to-remain sfareas for net above grade walls (including opaque doors), net roof, veftical fenestration and skylights in section provided at top of ENV-UA form. Enter UA information for new envelope assemb/ies in Building Components sectlon. Note 14 - Addition + Existing, Alteration + Existing, Addition + Alteration + Existing projects - Enter sf areas and estimated lJ-factors for all existing-to- remain envelope assemb/t'es in Building Components sectlon. ldentify these assemb/les as EXISI/NG in U-factor Source & Table # column. Enter UA information for new addition and altered envelope assemblies in Building Components section. Existing and new information will autofill into the Vedical Fenestration and Skylight Area Calculation section of ENV-SUM as all NEW. Does not affect calculation results. grade 2015 WSEC Compliance Forms for Commercial Buildings including R2, R3, & R4 over 3 stories and all R1 Revised Oct 2017 Prolect Title:19307 DS Jefferson County PUD 36x60 Office LO / 0a/ 20tsDate The following information is necessary to check a building permit application for compliance with the building envelope requirements in the Washington State Energy Code, Commercial Provisions. Applicability (yes,no,na) Code Section Component Compliance information required in permit documents Location in Documents Building Department Notes SCOPE na c402.1.1 Low energy spaces ldentify low energy spaces on plans; include project information, and calculations if applicable, that demonstrate spaces are eligible for envelope provisions exemption na c4021.1.1 Semi-heated spaces ldentify semi-heated spaces on plans, include calculations that demonstrate spaces are eligible for wall insulation exemption na c402.1.2 Equipment Buildings Provide building area, average wall and roof U-factor, and installed equipment information that demonstrates equipment building is eligible for envelope provision exemption c410.2 Walk-in and warehouse cooler and freezer spaces ldentify walk-in and warehouse cooler and freezer spaces on plans na c101.4.1 Mixed occupancy ldentify spaces with different occupancV requirements on plans na c503.2 Change of space conditioning ldentify on plans existing unconditioned spaces changing to semi-heated or conditioned space, and existing semi-heated spaces changing to conditioned space; provide calculations for existing and final level of space conditioning, and calculations that demonstrate alteration complies with current WSEC ldentify on plans existing F, S and U-occupancy spaces undergoing a change in occupancy; provide calculations that demonstrate alteration complies with the current WSEC ldentify on plans pre-2002 Group R spaces undergoing a change to a commercial occupancy; provide calculations that demonstrate alteration complies with the current WSEC na c505.1 occupancy Change of ldentify on plans non-Group R occupancy spaces undergoing a change to Group R; provide calculations that demonstrate alteration complies with the current WSEC ENVELOPE PROVISIONS rnuruare eilver9Pe rnSurauon cornpilanGe pam ano Provtoe aPP[caote forms; ENV-PRESCRIPTIVE or ENV-UA / ENV-SHGC for component lf complying via total building performance, provide a list of all proposed envelope component types, areas and U-values Yes c103.2 c103.6.3 Compliance documentation ENV.UA Yes c303.1.1 c303.1.2 lnsulation identification lndicate identification mark shall be applied to all insulation materials and insulation installed such that the mark is readily observable during inspection A-2 Yes c303.1 .3 c402.4.3 Fenestration product rating Fenestration products shall be labeled with rated U-factor, SHGC, W, and leakage rating A-1 lndicate installation methods, thicknesses, densities and clearances to achieve the intended R-value of all insulation materials;Yes c303.1.1 c402.2.1 General insulation installation Where two or more layers of rigid insulation will be used, indicate that edge joints between layers are staggered A-2 lndicate R-value(s) of cavity/continuous insulation on roof sections; lndicate framing materials on roof sections; lndicate method of framing for ceilings below vented attics and vaulted ceilings per A102.2 (std, adv); Provide area weighted average U-factor calculation for insulation whose thickness varies by 1 inch or less; lndicate effective U-factors of tapered insulation entirely above deck per 4102.2.6; include roof configuration and slope, maximum R-value at peak and minimum R-value at low point for all roof surfaces Yes cl03.2 c402.2.2 Roof assembly insulation lndicate R-values for thermal spacers and each insulation layer, and liner system (LS) method for metal building roofs A-2 na c402.2.2 Skylight curb insulation lndicate curb insulation R-value on roof section if not included in skylight NFRC rating lndicate R-value(s) of cavity/continuous insulation on wall sections; lndicate framing materials on wall sections; lndicate method of framing for wood construction per A103.2 (std, int, adv); lndicate material density category, wall weight and heat capacity for qualifying mass walls; For qualifying ASTM C90 masonry walls, indicate loose-fill core insulation material and percentage of cores filled including grouted cores, bond beams, vertical fills, headers and any other grouted cores; Ruilding Permit Plans Checklist, pg. 1 ENV.CHK Yes 03.2 insulation oo Go =G 5E c, Eo o o o o o 9 o o E .o IoIo ! E o E o G .9Ec c'-s =.s 5 WSEC Compliance Forms for Commercial Buildings including R2, R3, & R4 over 3 stories and all R1 L0/04/2Ot8 1 DateTitle1930? DS Jefferson County PUD 36x60 Offica Applicability (yes,no,na) Code Section Component Compliance information required in permit documents Location in Documents Building Department Notes Yes c103.2 c402.4.4 Opaque doors lndicate rated U-factor (swinging) or R-value (non-swinging - roll- up/sliding) on wall sections or in door schedules - applies to doors with less than 50% glazed area A-1 lndicate R-value(s) of cavity/continuous insulation on floor sections; lndicate framing material on floor sections;Yes c402.2.5 Floor over outdoor or unconditioned space insulation lndicate material density category and weight of qualifying mass floors A-2 lndicate R-value of continuous insulation on wall section or foundation detail; lndicate insulation extends down vertically and/or horizontally the required distance from top of slab; na c402.2.6 c303.2.1 Slab-on-grade floor insulation lndicate method of protection of exposed exterior slab edge insulation lndicate R-value of continuous insulation on wall section or foundation detail; lndicate insulation e)dends down vertically from top of slab and then horizontally under the entire slab; na c402.2.6 c303.2.1 Radiantly heated slab-on-grade floor insulation lndicate method of protection of exposed exterior slab edge insulation na c402.2.8 Radiant heating system insulation lndicate insulation R-value behind radiant panels, U-bend/headers and bottom surface of radiantly heated floors (other than radiantly heated slab- on-grade) Yes c402.4.1 c502.2.1 c503,3.2 Vertical fenestration maximum area Provide calculation for total vertical fenestration area as a percentage of gross above grade wall area (WWR) for new construction, additions and alterations in ENV-SUM ENV.UA 6.2% Provide calculations showing that the percentage of overall conditioned floor area within daylight zones is equal to or greater than 50o/o in 1 and 2 story buildings; OR Provide calculations showing that the percentage of overall net floor area within daylight zones is equal to or greater than 25% in buildings 3 stories or more; include the gross floor area and list of spaces omifted for the net floor area; Note in envelope plans that all lighting fixtures located within daylight zones shall be provided with daylight responsive controls per WSEC Section C405.2.4.1; indicate method of control in lighting fixture schedules na c402.4.1.1 c405.2.4.1 c502.2.1 c503.3.2 lncreased prescriptive maximum vertical fenestration area with daylight zones and controls lndicate that the W of vertical fenestration is at least 1 .1 times the rated SHGC lndicate high performance U-factors and SHGC values in fenestration schedules; na c402.4.1.3 c502.2.1 c503.3.2 I I UI eaSeU herfnrmah^6 ^la7in^ prescriptive maximum vertical fenestration area with high- lndicate if an area-weighted U-factor is used for multiple fenestration elements within the same fenestration category per Table C402.3; provide U-factor calculations Yes c402.4.1.4 c403.6 mechanical systems lncreased prescilptive maximum vertical fenestration area with DOAS lndicate that for eligibility, all occupied, conditioned spaces will be served by a dedicated outside air system (DOAS) that delivers ventilation air without requiring operation of the heating/cooling system per Section c403.6 M-l na c4021.5 Wall/vertical fenestration target area adjustment lndicate if component performance with target area adjustment will be used to account for vertical fenestration area in excess of the prescriptive maximum allowed na c402.4.1 c502.2.2 c503.3.3 Skylight maximum area Provide calculation for total skylight area as a percentage of gross roof area (SRR) for new construction, additions and alterations in ENV-SUM na c402.1.5.2 Roof/skylight target area adjustment lndicate if component performance with target area adjustment will be used to account for skylight area in excess of the prescriptive maximum allowed lndicate U-factors, SHGC and VT values in fenestration schedules; lndicate if an area-weighted U-factor is used for multiple fenestration elements within the same fenestration category per Table C402.3; provide U-factor calculations Yes c402.4.3 c303.1.3 U-factors, SHGC and VT for all fenestration assemblies lndicate if values are NFRC or default; if default then specify frame type, glazing layers, gap width, low-e coatings, gas-fill A-'l na c402.4.3 Permanent shading devices For windows with overhangs or permanent projection shading devices, provide projection factor calculations (Equation C4-6) and associated minimum SHGC for north and non-north orientations Building Permit Plans Checklist,2 ENV.CHK I 2015 WSEC Compliance Forms for Commercial Buildings including R2, R3, & R4 over 3 stories and all R'l Revised Oct 2017 Project Title:19307 DS J€ff€rson County PIrD 35x60 Offico LO / 04 /20t8Date Applicability (yes,no,na) Code Section Component Compliance information required in permit documents Location in Documents Building Department Notes ln single story buildings, provide list of enclosed areas that exceed 2,500 sf; for each space identify the space use, floor area, floor to ceiling height, whether skylights are installed, and any exception taken; Provide calculations for percentage of conditioned floor area located within a daylight zone including skylight and eligible sidelight daylight zones; Provide calculations for percentage of skylight area in each space over 2,500 sf, OR; Provide calculations for skylight effective aperture (Equation C4-5) for each space over 2,500 sf; na c402 4.2 Spaces in single story buildings requiring skylights lndicate haze factor of skylight glazing material or diffuser ADDITIONAL EFFICIENCY PACKAGE OPTION . ENHANCED ENVELOPE PERFORMANCE na c406.8 Enhanced envelope performance To comply with additional efficiency package option, demonstrate envelope insulation compliance via component performance; provide ENV- UA / ENV-SHGC compliance forms; verify that building totat UA is 15% lower than the Code target UA AlR LEAKAGE ldentify location and provide diagram of continuous air barrier in plans and sections; Yes c402.5.1.1 Air barrier construction and sealing Provide details for alljoints, transitions in materials, penetrations in air barrier and note method of sealing (caulked, gasketed, or other approved method) A-2 lndicate that room(s) containing non-direct vent appliances is isolated from conditioned space by the thermal envelope with a sealed air barrier, including doorway gasketing and sealing around ductwork and piping penetrations;na c402.5.3 Rooms containing open combustion fuel burning appliances used for space conditioning lndicate insulation provided in wall, floor and ceiling of the room envelope, and insulation required on combustion air ductwork lndicate locations of all access openings and doors to shafts, chutes, stairways a1q elevators;na c402.5.4 Access openings and doors to shafts, chutes, stairways and doors lndicate method of gasketing, weatherstripping and sealing of these openings lndicate locations of all stairway enclosure, elevator shaft and building pressurization relief openings, outside air intakes and exhaust openings; Yes c402.5.5 c403.2.4.3 Outdoor air intakes, exhausts and relief openings Note in envelope plans that all relief, outside air intake and exhaust openings shall be provided with dampers in accordance with Mechanical Section C403.2.4.3 M-1 lndicate method of sealing between light fixture housing and wall or ceiling; na c402.5.8 Recessed lighting in building envelope Note in envelope plans that all recessed lighting fixtures shall be lC rated and have an air leakage rating not greater than 2 cfm per ASTM E283 test; include these requirements in lighting fixture schedules na c402.5.6 Loading dock seals lndicate weather seal at cargo and loading dock doors lndicate locations and dimensions of vestibules and air curtains lndicate exception and criteria utilized for all building entrances and exits that do not have a vestibule or air curtain; lndicate required performance for air curtains installed per exception 7; na c402.5.7 Vestibules For unconditioned vestibules, indicate which envelope assembly (interior or exterior) complies with the requirements for a conditioned space calculations on all six sides of the air barrier; lndicate on plans the location of air barrier boundaries and area lndicate air barrier test method in accordance with ASTM E779 or approved equivalent; lndicate required maximum leakage rate for compliance. Yes c103.2 c402.5.1.2 Building air leakage test lnclude the following requirements in project documents: (1) Submit air barrier test report to jurisdiction once test is completed; (2) lf test results exceed 0.40 cfmfft'? (1.5 Us*m2; at 0.3 in. wg (75 Pa), then visuaily inspect air barrier and seal noted sources of leakage; (3) Submit a follow-up report to iurisdiction noting corrective measures taken; (4) lnclude air barrier test report in compliance documentation provided to building owner. A-2 Building Permit Plans Checklist, pg. 3 NV.CHK lf "no" is selected for Yes End of Building Permit Plans Checklist 2015 WSEC Compliance Forms for Commercial Buildings including R2, R3, & R4 over 3 stories and all R1 Revised Oct 201 7 Project Title:19307 DS Jafferson County PUD 36x60 Office LO/04/2018Date Applicability (yes,no,na) Code Section Component Compliance information required in permit documents Location in Documents Building Department Notes ADDITIONAL EFFICIENCY PACKAGE OPTION . REDUCED AIR INFILTRATION na c406.9 Reduced air infiltration To comply with additional efficiency package option, indicate in project documents that the air barrier test results shall not exceed 0.25 clmlft2 (0.94 L/s"m'?) at 0.3 in. wg (75 Pa); indicate air barrier test report shall be submitted to the jurisdiction and building owner once test is completed ALTERATIONS na For a roof alteration where existing ceiling cavities are exposed, indicate cavities are insulated to full depth at R-3 per inchc503.1 c503.3.1 Roof alteration - insulation For a roof covering replacement where insulation is installed entirely above the roof deck, indicate insulation complies with requirements for new construction per Tables C4O21.3 or C4O2.1 .4 na c503.1 Wall and floor alteration - insulation For a wall or floor alteration (floor over outdoor or unconditioned space) where existing envelope cavities are exposed, indicate cavities are insulated to full depth at R-3 per inch na c503.3.2 Addition of vertical fenestration Where the addition of new vertical fenestration results in total building window-to-wall ratio (WWR) exceeding the maximum allowed per C402.4.1, demonstrate method of compliance (vertical fenestration alternate per C503.3.2, or component performance compliance with target area adjustment for the total building) na c503.3.3 Addition of skylights Where the addition of new skylights results in total building skylight-to-roof ratio (SRR) exceeding the maximum allowed per C402.4.1, demonstrate component performance compliance with target area adjustment for the total building PROJECT CLOSE OUT DOCUMENTATION c103.6.3 Project close out documentation requirements lndicate in plans that project close out documentation is required including applicable WSEC envelope compliance forms and calculations, and fenestration NFRC rating certificates Butlding Permit Plans Checklist, pg. 4 ENV.CHK Lf,ghting Summary LTG.SUM State Code Forms for Commercial Bui R2 R4 over R1 Proiect Info Compliance forms do not require a password to use. lnstructional and calculating cells are vrite- protected. Project Title: 19307 DS Jefferson Gounty pUD 36x60 Office Date LO/ 4/20L8 Applicant lnformation. Provide contact information for individual vho can respond to inquiies about compliance form information provided. For Building Department Use Company Name: Blazer lndustries, lnc. CompanyAddress: 945 Olney St., Aumsville, OR 97325 Applicant Name: Jamie Holmes ApplicantPhone: 503-749-1900 ApplicantEmail: James@blazerlnd.com Project Description f,lNe*Buildirg fleooition flAheratton [No Lignting scope lnclude PROJ-SUM form (included in envelope forms va*book) uith lighting compliance forms. Interior Lighting System Description [! tnemr Ughting Plans Induded (18) 2A LED Volurnetric Troffer-nLight enabled-6300 Lumen-S3 waft4000k-lntegral Occupancy and Daylight sensor. (21 2x4 LED Vol u metric T roffer-nLig ht enabled-6300 Lu men-53 watt4000k Interior Lighting Power Allowance Method [! auitOing Area Method Select method used in prcject. I Space-Uy-spae Meffrod Interior Lighting Controls I ettc+os.z.l- c405.2.8 Liehtins conbors Eiilffi=Jffifln1ffi,*,'" ."*' Sl Additional Effciency Package Option - C406.4 Enhanced DigitalLightirp Tocomplyvith C406.4, nolessfhan 90%of thetotal installedinteiorlightingpovor shallcomplyvtth rcquired contols per C406.4. Dwelling Unit Interior Lighting Permanendy installed inteior lightingfixtures in drclling units comply vith: I No Drvellirp O c+os.z tlru C405 5 coffnerciet LaghtirE controb and LPA Units O C+OO.S Hagh Efficacy LightirE OR404.1 Residerfrral High Efiicacl Ligtrting. Dvnlting unittightingcomplieswth WSECResidentia! provisionsin lieu of WSEC Commercial proy,'sions. Exterior Lighting System Description f,! exerior Lighting Plans Included (2142Watt CF Vandal resistant porch light with integral photocell Building Additions Refer to Section C502.2.6 for additional requirements. Compliance Method Lightirg systems in addition area comply witr all applicable provisiors as a stand alone new corstsrction project Lightirg s!6tems in additon arc combired with existirg bdHing lightirg sptems to demonstrate compliarEe lnterior lightirg tr tr E*erior lighting tr tr Addttton ls comblned wlth exlsdng: For interior lighting projects, include new + existing-to-remain inteior lighting fixture vtaftage in Proposed Lighting Wattage table in LTG-INT-BLD or LTG-INT-SPACE form. For exterior lighting projects, include new + existinglo-remain exteior lightingfixture naftage in Proposed Tradable and Paposed Non-Tndable LightingWattage tables in LTG-EXT form. I I LiEhting Summary, cont.LTG.SUM , 2015 State E Code Forms for Commercial Buildi includi R4 over 3 stories and all R1 Revised Nov 2017 Project Title:19307 DS Jefiercon County PUD 36x50 Office LO/ 4/20L8Date Change of Space Use n Eistirg interior lightirg systems in areas undergoirg a charge in space use are upgraded to - comply with LPAs for the new space q/pes per Tables C405.4.2(1) or C40i.4.2(2). ldentify inteior spaces rcquiring LPD upgrade to the cunent Code in Proposed Lighting Wattage table in LTG-INT-BLD or LTG-INT-SPACEfom. LlghUng Power herior lightirg parkirB garage Exteriorligtrtirg 507o or more of existirg are replaced tr tr tr Less than 50% of existirg are rephced tr tr tr :1;:,#',:1,?x}3i[:'tsfiT"",],:g tr tr tr 50/o or morc rcplaced - Total lighting'po*, of ,"* * exising-to-remain nxturcl shalt comply uith total LPA per Secllons C405.4.2 and C405.5.2. lnclude new + existing-to-remain fixturcs in Proposed Lighting Wattage table in LTG-INT-BLD, LTG-INT-SPACE or LTG-EXT form. Less than 50?5 replaced - Total lighting povcr of new + existing-to-remain fixtures shatt not exceed the total lighilng povcr piorto alteration. lnclude new + existing-to-remain fixtures in the Proposed Lighting Wattage table in LTG-INT-BLD, LTG-INT-SPACE or LTG-EXT form. 50% threshold appliesto numberof luminairesfor inteiorspaces and pafuing garages, and total installed vottage for exteior luminaircs. Interior and Exterior Lighting Alterations Select all Lighting Poner and Ughting Control elementsthat applyto lhe scope of the retrofit project. lf project includes a combination of spaces vhere /ess lhan 50% of the existing firturcs are rcplaced in some spaces, and 50% or more of the fixtures are replaced in others, then provide separate lighting porner compliance forms for the tvw retrofit conditions. Spaces undergoing the same type of retrofit may be combined into one I i ghti ng pove r co m pl i a n ce form. Refer to Sectlon C503.6 for additional requirements. All alteration lighting controls sha//be com m i ssioned pe r C408.3. J] ItIo changes are being madc to - ilte interior or exterior lighting systems and existing spce uses and configuration are not dtanged. New wiring or ciranit - For interior lighting, provide rcquircd manual contols per C405.2.3, occupancy sensor confrols per C405.2.1 , daylight rcsponsive conbols per C405.2.4 and application specific lighting conbols per C405.2.5. For erteior lighting, provide requircd contols per C405.2.7. New or moved pnel - Provide all applicable lighting contrcls as noted for New Wring and automati< time suitch controls per C405.2.2. Reanfigured interior spacr' - Provide all required lighting controls that apply to a new inteior space. Application speciftc lighting control provisions per C405.2.5 do not apply to reconfigured trNew or molod lightirg parrl hterior lightirg tr tr tr ParkirB garage tr E*eriorlightirg tr tr LlghUng Gonbols New wirirg irstalled to senie added fi*ures and/or fxfi/res relocated to new circuit(s) herior space is recorfigured - luminaires urrcharged or relocated 2015 Was State Code R3, R4 over 3 stories and all Rl Revised Nov 2017 Maximum Allowed w ttoTE I Total Area Retail Display Allowance from LTG-lNT-D Allowed Watts Proposed Lighting Wattage rcrE3 Proposed Retail Display Lighting from LTG-INT Total Proposed Wafts may not exceed Total Allored Wafts for lnterior Lighting Total Proposed Watts Note 1 - List all unique space types per Table C405.4.2(2) that occur in the project scope. Se/ecf space type category from drop dotnt menu. Note 2 - lndicate ceiling height for atiums and spaces utilizing the ceiling height adjustment per Table C405.4.2(2), Footnotes d thru f. Note 3 - List all proposed lighting fixtures including exempt lighting equipment and existinglo-remain fixtures. Note 4 - For proposed Fixture Description, indicate ftxture type, lamp type (e.9. T-8), number of lamps in the fixture, and ballast type (if included). For track lighting, list the length of the track (in feet) in addition to the fixture, lamp, and ballast information. Note 5 - For lighting equipment eligible for exemption per C405.4.1, note exception number and leave Watts/Fixture blank. Note 6 - Existing-to-remain fixtures shall be included in the Proposed Lighting Wattage table in the same manner as new fixtures. ldentify as existing in fixtu re de s c ription. Note 7 - For proposed Watts/Fixture enter the luminahe vattage for installed lamp and ballast using manufacturer or other approved source. For luminaires urth screwin lamps, enter the manufacturels listed maximum input vaftage of the fixture (not the lamp vattage). For bw voltage lighting, enter the v€,ttage of the transformer. For line voltage tracl</bust@y systems, enter the larger of the aftached luminaire vwttage or 50 tmtts/lineal foot, or enter the vattage limit of Wrmanent cunent limiting device. Note 8 - Lobby ArVExhibit Display Allovnnce is independent of the Maximum Allowd Ughting Waftage. Enter all proposed lobby art/exhibit display fixtures in LTG-INT-DISPLAY form only. Note 9 - Calculation Area Details: a. Lighting fixtures in a building addition may comply as a stand alone prcject, or they may be combined uith the overall existing building lighting systems to demonstrate compliance. Refer to C502.1. b. For alterations and building additions, provide Space Types and grcss inteior areas in the Maximum AllovBd Lighting Wattage table. lf a building addition will comply as combined nith the overall existing building lighting systems, include all applicable existing Space Types and oross inteiot areas. 19307 DS Jefferson PUD 36x60 OfficeProject L0 / 4 /2078 Calculiation Area rorE e O ttew construction O eoitim - O Adition O Spaces where < 5096 d O Spaces where > 5(P6 of 0 Spaces where the Use For Building Department Use LPA Calcul,ation Type O Sandard a 44tq!al Effrcency Packap Option- C406.3 Reilced lnterbr Lightiry Tocomplyvth C106.3, the Prop€se4 LPD $at be 2!f,5 lolf,q tlpnthe Taed IPA Rdqto C4ffi.3lor ddlimal rquienrerts-User Location (plan #, room #)Space Type Ceiling HeightrcE2 Gross lnterior Area in ft2 Allowed Watts perd Watts Allowed (wafts/# x area) E-1 Restrooms Restroom: all other 8 90 0.780 70 E-1 Dispatch Office Office: Enclosed 223 0.890 198 E-1 Office 1 Office: Enclosed 8 t24 0.890 110 E-1 General Office Office: Enclosed 8 7328 0.890 1L82 E-1 Break Room Lounge/breakroom : all other I 111 0.580 64 L87 6 lnterior Lighting - Space-B -Space Method LTG.INT-SPACE L526 - Location (plan #, room #)Fixture Description NorE4' 5' 6 Number oI Fixtures Watts/ NoTETFtxure Watts Proposed E-1 Restrooms 2x4 53W LED Troffer n-Light w/ Occ and Daylight sensor 2 ca r06 E-1 Dispatch Ofiice 2x4 53W LED Troffer n-Light w/ Occ and Daylight sensor 2 53 E-1 Office 1 2x4 53W LED Troffer n-Light w/ Occ and Daylight sensor 1 53 53 E-1 General Office 2x4 53W LED Troffer n-Light w/ Occ and Daylight sensor 1.4 5J 142 E-1 Break Room 2x4 53W LED Troffer n-Light w/ Occ and Daylight sensor 1 53 53 1060 Power Allowance COMPLIES WITH C406.3 Lobby AruExhibit Dis ptay Altowance from LTGTNT-D tsP LAY Nore s l-_-l Date U 106 I kterior Lighting LTG.EXT Project Title:19307 DS Jefierson County PUD 36x60 Office Lo / 4/2018Date Exterior Lighting Zone OZon"l OZorcZ OZonee OZonea Exterior Lighting Zone selection required to enable LTG-EXT form. Zones arc defined in Table C405.5.2(1) and specified by the For Building Department Use Calculation Area Q ROOition - stand alone Q lddition + existirE 6 Alteration wi.th > 50% en. wa[age repl€lceo r Alteration with < 50%g eld. wattage replaced tuttov.vuvt,t O New construction User Note Building Grounds Appliesto individual luminaires> 100 Wafts f] em"."y > 80 lumensAratt I Conbolled by motion sensor 600 Tradable Surfaces Surface Description Area (#), perimeter (tf) or # of items Allowed Watts per d or per lf Alloweo watls xflorxqNoE2 Main Entry Door Entry 6 2OWlLF door r20 720 2015 Washi State E Forms for Tradable Maximum Allowed Lighting Wattage Tradable Proposed Lighting Wattage *E' Total proposed tradable rmtts may not exceed the sum of total allovcd tradable uafts p/us fhe base site allovance. Any base site allovsnce not needed to make tradable wtts comply can be applied to individual non-tradable Non-lradable Maxrmum Allowed Lrghtrng Wattage""'"' Non-Tradable Proposed Lighting Wattage *"''' Non-tradable prcposed vntts may not exceed alloned vrfts for any individual surface unless the ,otal excess vatts for all non-tradable surfaces arc /ess than the remaining site allovance. R4 over 3 stories and all R' Revised Nov 20'17 Base Site Allowance: Total Allowed Tradable + Site Allowance Watts: Total Proposed Tradable Watts: Site Allowance Remaining: NonTradable Watts Exceeding LPA: Remai ni ng Site Allowarrce: 84 0 600 Exterior Lighting COMPLIES WITH MAX. ALLOWANCE Note 1 - List all exteior surfaces per Table C405.5.2(2) that occur in the project scope. Select exteior surtace categoies from drop dovn menu Note 2 - Unlft Message - Enter lightingfixture informationfor this surface in Proposed Lighting Wattage table to generate Lighting Porner Allova Alote 3 - List all proposed lightingfixtures including existing-to-remain firtures. Note 1 - For proposed Fixture Description, indicate fixture type, lamp type, number of lamps in the fixture, and ballast type (if applicable). Note 5 - Existing-to-remain fixtures shall be included in the Tradable and Non-Tndable Proposed Lighting Waftage tables in the same manner as new firturcs. ldentify as existing in fixturc desciption. Alote 6 - For proposed Wafts/Firture enter the luminaire vattage for installed lamp and ballast using manufacturer or other approved source. Fot luminaires nith screwin lamps, enter the manufacturels listed maximum inputvnttage of the fixture (not the lamp rmttage). For low voltaqe liqhtinq. enter the vaftaqe of the transformer. Tradable Surface NOTE 4- 5Frxlure uescnpuon Number of Fixtures wafis per NOTE 6rtxture Watts Proposed Main Entry Door 42W CF w/ photocell 2 42 84 600 Non-Tradable Surfaces Surface Description Area (f), perimeter (tf) or # of items Allowed Watts perf,foritem Alloweo wats xflorxgNoE2 Non-Tradable Surface NOTE 4 5Frxlure uescnpuon Number of Fixtures Watts per NOTE 6Ftxure Wafts Proposed IExempuon \E I(E .Q q) EE:sG>SU) tc,)'15 PEO^ Eia-tr(l)=E:rto'iq(U(l)\ !q)oa(EGtrb>tl-'<6E=beatsFc :i\r= orQs€ TEo.: .os;E3EROE.< - Q) :BEE;bE s;l{83 -o)'3Eo;'8.!a o E g-.8 ; ie,; ;OcQi..'-\:5(E:?'Sc'-Go iH!E;\OOo>-it =*3.E EAD(D - E iE HE i'.E E'i:5OX:<s G i.g "o1= 2015 R4 over 3 and all R1 Revised Nov 2017StateCodeCommercial Project Title:'19307 DS Jefferson County PUD 36x60 Office 10 / 4/ 20L8Date The following information is necessary to check a permit application for compliance with the lighting, motor, and electrical requirements in the Applicability (yes,no,na)Code Section Component Compliance information required in permit documents Location in Documents LIGHTING CONTROLS Yes c405.2 Lighting controls, general For all lighting fixtures, indicate lighting control method on plans for spaces and lighting zone(s) served, or exception taken E sheets Yes c405.2 Luminaire level lighting controls (LLLC) lndicate on plans all flxtures provided with LLLC in lieu of C405.2 lighting controls; provide description of control capabilities and performance parameters E sheets NA c40s.1 Lighting in dwelling units For permanently installed lighting fixtures in dwelling units, indicate lighting control method on plans for spaces and lighting zone(s) served, or demonstrate compliance with high efficacy exception Yes c405.2.3 c405.2.1.1 c405.2.2.2 c405.2.4 c405.2.5 Manual controls lndicate on plans the method of manual lighting control (whether combined with occupancy sensor, automatic light reduction, daylight responsive or specific application controls), location of manual control device and area or specific application it serves E sheets Yes c405.2.2.1 c405.2.2.2 c405.2.3 Manual interior light reduction controls lndicate on plans which method of manual 50% lighting load reduction is provided, or whether lighting load is reduced via occupancy sensors or daylight responsive controls E sheets lndicate on plans the method of automatic shut-off control during unoccupied periods (oco.rpancy sensor, time switch or digital timer switch) for all liohtinq zones: E Eheets Yes c405.2.2 Method of automatic shut-ofi control lndicate locations where automatic shutoff is provided by other methods (occupancy sensor or digital tim6r switch) or which time switch control exception applies hCfqatg on plans the spac€s served by occupancy sensors:E sheets Yes c405.2.1 c405.2.1 .1 Occupancy sensor controls lndicate whether occupancy s€nsor contrcls are configurod to be manual-on, automatic 50%-on, or serve a space eligible for automatic 100%-on per exception NA c405.2.1.2 Occupancy sensor controls - warehouses lndicate aisleways and open areas in warehouse spaces provided with occupancy sensor controls that reduce lighting power by 50% NA c405.2.2.1 Automatic time switch controls lndicate locations of override switches on plans and the lighting zone(s) served, include area sq. ft. NA c405.2.6 Digital timer switch lndicate digital timer switch control includes: manual on/off, time delay, audible and visual indication of impending time-out lndicate primary and secondary sidelight daylight zone areas on plans, include sq. ft.; Indicate toplight daylight zone areas on olans. include so. ft.: NA c405.2.4.2 c405.2.4.3 Daylight zones - Sidelight and toplight For small vgrtical f€nestration assombli€s (rough opening less lhan '10 percent of primary daylight zone) where daylight responsive controls are not required, provide fenestration area to daylight zone calculation(s) lndicate on plans lighting zone(s) served by daylight r€sponsiv€ controls; ldentify sidelight and toplight daylight zones that are not provided with daylight sensing controls and the €xception(s) that apply; lndicate on plans the lighting load reduciion method - continuous dimming, or stepp€d dimming that provides at l€ast two even steps b€tween 0o/o-100o/o of rated power: Yes c405.2.4 Daylight responsive controls lndicate that daylight sensing controls are configured to completely shut off all controlled lights in th6 lighting zone E sheets NA c405.2.5 Additional controls - Specific application liohtinq controls ldentify spaces and lighting fixtures on plans that r8quire specmc application lighting cofltrrols per this section lndicate on plans that display and accent lighting, and display case lighting are controlled independenfly ftom both general area lighting and other lighting applications within the same space; NA c405.2.5 - Items 1&2 Display and accent lighting lndicate manual and automatic lighting control method Li htin , Motor, and Electrical Permit Checklist, P .1 LTG.CHK Building Oepartment Notes Revised Nov 2017 Project Title:LO / 4/20L819307 DS Jefferson County PUD 36x60 Office Forms for R4 over 3 stories and all R1 Date The following information is necessary to check a permit application for compliance with the lighting, motor, and electrical requirements in the Applicability (yes,no,na)Code Section Component Compliance information required in permit documents Location ln Documents Building Department Notes NA c405.2.5 - Item 3 Hotel/motel guest rooms lndicate method of automatic control - vacancy or captive key conlrol of all installed luminaires and switched receptades in guest room NA c405.2.5 - Item 4 Supplemental task lighting lndicate method and location of automatic shut-off vacancy control for supplemental task lighting, including und6r-shelf or under-cabinet lighting lndicate on plans eligibl€ non-visual lighting applications, indude sq. ft. area of each liohtinq control zone: lndicate on plans that non-visual lighting are controll€d independently from both general area lighting and other lighting applications within the same sDace: NA c405.2.5 - Item 5 Lighting for non- visual applications lndicate method of manual lighting control and applicable automatic lighting control lndicate on plans that lighting equipment for sale or demonstration are controlled independently from both general arBa lighting and other lighting applications within ths same space; NA c405.2.5 Item 6 Lighting equipment for sale or demonstration lndicate method ot manual lighling control and applicabl€ automatic lighting control ldentifo on plans egress fi)ilures that function as both normal and emerg€ncy means of egress illumination;E sheets Provide calculation of lighting pow€r dsnsity of total egress lighting; lf total egress lighting power density is greater than 0.02 Wsq. ft., indicate on plans egress fixtures requiring automatic shut-off during unoccupied periods; Yes c405.2.5 Item 7 Means of egress lighting lndicate method of automatic shut-off control lndicate on extorior lighting plans and fixturo schedules the automafc lighling conEol method, control sequence, and lmtions served: E sheets For building facade and landscape lighting, indicate automatic controls shut off lighting as a function of dawn/dusk and txed op€ningy'closing tim€;Yes c405.2.7 Exterior lighting controls For all other exterior lighting, indicate automatic controls shut ofl lighting as a function of available daylight; indud€ control sequence that also reduces lighting power by at least 30% between 12am-6am, or from t hour after closing to t hour before opening, or based upon motion sensor Yes c405.5.1 Exterior building grounds lighting controls For building grounds fixtures greater than 100 watts, indicate on plans whether fixtures have efficacy greater than 80 lumens or; are controlled by motion sensor, or are exempt lighting per c405.5.2 E sheets lndicate location(s) of master control switch(es) intended to control multiple ind€p€ndent switches; circuit br€ak€r may not be used as a master control switctr;NA c405.2.5 (listed after c405.2.71 Area controls - Master control switches and circuit power limit Veriff that no 20 amp circuit controlled by a single switch or automatic control is loaded beyond 80o/o EFFICIENCY PACKAGE OPTION - To comply with additional efficiency package option, indicate on plans all interior lighting fixtures that are individually addressed and provided with continuous dimming, or excaption taken; E sheets Yes c406.4 Enhanced digital lighting controls lnclude calculation of percent total installed interior lighting power that is configured with requirad enhanced lighting control funclions (min 90% to comply with additional efrdency packag€ option) Li htin , Motor, and Electrical Permit Ghecklist, P .2 LTG.CHK l 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2, R3, R4 over 3 stories and all R'l Revised Nov 2017 19307 DS Jefferson County PUD 36x60 OfficeProject Tatle:r0 / 4/20t8Date The following information is necessary to check a permit application for compliance with the lighting, motor, and electrical requirements in the Applicability (yes,no,na)Code Section Component Compliance information required in permit documents Location in Documents Buildlng Department Notes INTERIOR LIGHTING POWER & EFFICACY lnclud€ all luminaires in lighting fixtuie schedule; indicate fixture types, lamps, ballasts, and manufacture/s rated watts per fixtur€; E sheets ldentify spaces eligible for lighting power exemption on plans and in compliance forms; indicate the €xception applied; ldentify lighting equipment eligible for lighting power exemption in finure schedule and in compliance forms; indicate the excsotion aDDlied: Yes c405.4.1 c405.4.2 interior lighting power Total connected lndicate that exempt lighting equipment is in addition to gsneral area lighting and is controlled indep€ndently NA c405.3 Exit signs lndicate location of exit signs on plans and rated watts per fixture in lighting fixture schedule (maximum 5 watts per side) NA c405.1 Lighting in dwelling units - lamp efficacy lf high efficacy exception is applied to permanently installed lighting fixtures in dwelling units, indicate in lighting fixture schedule if lamps in filitures are high efficacy per R404.'l . Calculate percentage of fixtures with high efficacy lamps in project (min 75% to comply with exception). lnterior Lighting Power Galculation - lndicate compliance path taken Yes c405.4.2.1 Building Area Method Complete required compliance forms - proposed wattage per building area does not exceed maximum allowed wattage per building area; identify locations of buildinq areas on plans E sheets NA c40s.4.2.2 Space-By-Space Method Complete required compliance forms - total proposed wattage does not exceed maximum allowed wattage; identify locations o space types on plans, including retail display areas, lobby art & exhibit display areas, and ceiling heights as applicable ADDITIONAL EFFICIENCY PACKAGE OPTION. REDUCED INTERIOR LIGHTING POWER DENSITY Yes c406.3 Reduced lighting power density To comply with additional efficiency package option, demonstrate in compliance forms that total connected interior lighting wattage is 25% less than the total maximum allowed lighting wattage via Building Area Method or Space-By-Space Method LTG-lNT-Space NA c406.3 Reduced lighting power density - dwelling unit lamp efficacy For project with dwelling units, to comply with additional efficiency package option indicate in lighting fixture schedule if lamps in interior fixtures have efficacy rating of 60 lumens per watt or mor€. Calculate percentage of fixtures with lamps that have this efficacy raung (min 95% to comply with option) EXTERIOR LIGHTING POWER & EFFICACY lncluds all luminaires in lighting fixture schedule; indicate fixture types, lamps, ballasts, and manufacture/s rated watts per fixtu16: E sheets ldentify €xterior applications eligible for lighting power oxsmption on plans and in compliance forms; indicate exoBption apPlied; Yes c405.5.2 Total connected exterior lighting power lndicate that exompt extorior lighting is controlled independently tom non-exempt exterior lighting; include exception claimed for each fixture or group of fixtures under excaption category Yes Table c40s.s.2(1)Exterior lighting zone lndicate building exterior lighting zone as defined by the AHJ LTG.SUM NA c405.5.1 Exterior building grounds lighting For building grounds finures rated at greater than 1@ watts that are complying based on efficacy, indicate rated lamp efficacy (in lumens per watt) in fixture schedule Yes c405.5.2 Exterior lighting power calculations Complete required compliance form - proposed wattage for exterior lighting plus base site allowed does not exce€d maximum allowed E 3heets Lighting, Motor, and Electrical Permit Ghecklist, P 3 LTG.CH 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2, R3, R4 over 3 stories and all R'l Revised Nov 2017 19307 DS Jefferson County PUD 36x60 Office Date to/4/20L8 The following information is necessary to check a permit application for compliance with the lighting, motor, and electrical requirements in the Applicability (yes,no,na)Code Section Component Compliance information required in permit documents Location in Documents Building Department Notes LIGHTING ALTERATIONS NA c503.6 lnterior and parking garags lighting fixture alterations Where ) 50% of existing luminaires in interior space(s) or parking garage are replaced; indicate compliance path (building area or space-by-space method); include all new and existing-tc remain luminaires in compliance form (LTG-INT-BLD or LTG- INT-SPACE); indicate proposed lighting wattago do€s not exceed maximum allowed per compliance path Where < 50% of existing luminaires in interior space(s) or parking garage ars replaced; indicate total existing lighting wattage in each space prior to alteration; include all new and existing-to-rsmain luminaires in LTG-lNT-SPACE form; indicate proposed total lighting watlage in alteration area does not exceed total existing lighting wattag€ prior to alteration NA c503.6 Exterior lighting fixture alterations Wh€re > 50% of existing exterior lighting wattage is replaced; include all new and €xisting-to-remain luminaires in LTG-EXT form; indicate proposed total exterior lighting wattage does not exceed maximum allowed Where < 50% of existing exterior lighting wattage is raplaced; indicate total existing lighting wattage prior lo alt€ration; includ€ all new and existing-to-remain luminaires in LTG-EXT form; indicate proposed total exterior lighting wattage does not excee< total existing wattage prior to alteration NA c503.6 lnterior lighting wiring alterations Where new wiring is installed to serve new interior luminaires and /or luminaires are relocated to a new circuit; indicate lighting controls are provided (as applicable) - manual (CaO5.2.3); occupancy sensor (C405.2.1); daylight responsive (C405.2.4); specific application (C405.2.5); exit signs (C405.3) NA c503.6 Exterior lighting wiring alterations Where new wiring is installed to serve new exterior luminaires and /or luminaires are relocated to new circuit; indicate exterior lighting controls are provided (C405.2.7) NA c503.6 Lighting panel alterations Where a new lighting panel is installed or an existing panel is moved (all new raceway and conductor wiring); indicate lighting controls are provided (as applicable) - same provisions as wiring alterations; time switch controls and manual light reduction controls (C405.2.2) NA c503.6 lnterior space reconfiguration Where interior space(s) is reconfigured (permanently installed walls or ceiling-height partitions); indicate lighting controls are provided (as applicable) - same provisions as lighting panel alterations NA c504.2 Lighting repairs ldentify existing luminaires being upgraded with bulb and / or ballast replacement; indicate fixture alteration does not increase existing fixtu16 wattage NA c505.1 Change of space use ldentify spaces on plans where the building area type or spaoe use type is being changed from one type to another per Tables uo5.4.2(1) or (2) lndicate compliance path (building area or space-by-space method); include all new and existing-to-r€main luminaires in compliance form (LTG-INT-BLO or LTG-lNT-SPACE); indicate proposed lighting wattage do€s not oxceed maximum allowed per compliance path RECEPTACLES Yes c405.10 Controlled receptacles ldentify all controlled and uncontrolled recaptacles on electrical plans in each spaoe in ruhich they are required; include receptacle configuration such as spacing betwe€n controlled and unconfolled, duplex devices, etc; E 6he€ts lndicate on plans whether the method of automatic control for each controlled receptacle zone is by occupant sensor or programmable time-ot-day control M and Electrical Permit C 4 LTG.CHK Forms for Commercial R4 over 3 slories and all R1 Revised Nov 201 19307 OS Jefferson County PUD 36x60 Office LO / 4/2OL8 State Code The following information is necessary to check a permit application for compliance with the lighting, motor, and electrical requirements in the Applicability (yes,no,na)Code Section Component Compliance information required in permit documents Location in Documents Building Department Notes MOTORS, TRANSFORMERS, ELECTRIC METERS, INTERIOR TRANSPORTATION NA c405.6 Electrical transformers lnclude electrical transformer schedule on electrical plans; indicate transformer size, efficiency, or exception taken NA c405.7 Dwelling unit electrical energy consumption lndicate on electrical plans that each dwelling unit in Group R-2 has a separate electrical energy meter NA c405.8 Electric motor efficiency lnclude all motors, including fractional hp motors, in electric motor schedule on €lectrical plans; indicate hp, rpm, rated effciency, or exception applied For luminaires in each elevator cab, provide calculated average efficacy of combinod fixtures that indicates efficacy is not less than 35 lumens per watt: lndicate rated watts per cfm for Blevator cab ventilation fans do not exc€ed 0.33 watts oer cfm: NA c405.9.1 Elevator cabs lndicate automatic controls that de-energize lighting and venlilation fans when elevator is stoppod and unoccupied for a poriod of 15 minutes or more NA c405.9.2 Escalators and moving walks lndicate escalators comply with ASME A17.1/CSA 844; automatic controls are configured to reduc€ operational speed to the minimum permitt€d wh€n not in use NA c405.9.3 Regenerative drive lndicate all one-way down or rev€rsibl€ escalatoni are provided with a variable frequency regsnerative driva DOCUMENTATION AND SYSTEM REQUIREMENTS TO SUPPORT COMMISSIONING (Gx) lndicats that all electrical systems (receptacles, transformers, motors, vertical and horizontal transportation) for which the WSEC reguires control functions and / or configuraUon to pBrform sDecific functions are required to b€ commissioned; NA c408.3 Scope of electrical power and lighting systems commissioning Where total building lighting load is > 20 kW, or where total lighting load of luminaires requiring daylight sensing and / or occupancy control > 10 kW, indicate that all automatic lighting control systems are required to be commissioned; or provide building lighting power calculation demonstrating eligibility for exception; lndicate Cx requirements in plans and specifications for all applicable electrical and liqhtinq control svstems per C408: lnclude general summary with at minimum ltems 1 thru 4 of the Cx plan per C408.1 .2 including: nanative description of activities, responsibilities of the Cx team, schedule of activities induding verification of p.oject close out documentation per C103.6, and conflict of interest plan (if required); NA c405.1 3 c408.'1.1 c408.1.2 c408.1.4.2 c103.6 Commissioning requirements in construction docum€nts lnclude in general summary that a Cx proj€ct report or Compliance Checklist (Figure C408.1.4.2) shall be completed by the Certifled Cx Professional and provided to the owner prior to the final electrical inspection Yes c408.3.1 performance testing Functional criteria ldentify in plans and specifications the intended operation of all equipment and controls during all modes of operation, including interfacing between new and existing-to-remain systems PROJECT CLOSE OUT DOCUMENTATION Yes c103.6.3 Poect close out documentation requiremenls lndicate in plans that project close out documentation is required including WSEC lighting compliance forms and calculations that document all interior and exterior lighting area and / or surface types, lighting power allowances and installed densities Li(fiting, Motor, and Electrical Permit Checklist, Pg. 5 LTG.CHK lf "no" is selected for any question, provide explanation End of Lighting, Motor & Transformer Permit Documents Checklist Date 2015 WaShingtOn State energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and att R1 tvl 2015 Washingto! little Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January 2017 19307 DS Jefferson County PUD 36x60 OfficeProject Title:L0/4/20L8Date Applicant lnformation. Provide contact information for individual who can respond to inquiies about compliance form information provided. Company Name:Blazer lndustries, lnc. Company Address 945 Olney St SE,. Aumsville, OR 97325 Jamie HolmesApplicant Name: Project Information Applicant Phone:s03-749-1900 For Building Dept. Use Proiect Description Briefly describe mechanical syslems ,n the brt box provided ! rotat Bldg Performance (TBP) This path includes all mandatory provisions per C401.2 Option 2. MECH-SUM, MECH-CHK, and C407 Energy Analysis forms required. @ New Building ! AuiUing Addition ! Tenant Improvement ! System Retrofit ! trto System Changes Design Load Calculations I loao calculation summary ! naecH-lonD-CALC Form Provide design load calculations for all mechanical systerns and equipment seruing the building heating, cooling or ventilating needs. lf a load calculation summary is provided with the permit documents that includes all applicable compliance information then the MECH-LOAD-CALC form is not required. Mechanical Schedules B Mechanical Plans fl uecrf-eO Forms (TBD) lndicate location of eguipment compliance information. lf provided on plans then \IECH-EQ forms are not required, however, include on plans all applicable compliance information listed in MECH-EQ lables. Dedicated Outdoor Air System Requirements and High Efficiency VAV Alternate B OOnS is required per C403.6 effective July '1, 2017 (otfice, retail, education, library and fire station occupancies) Ail occupied, conditioned areas sha/, be served by a DOAS that delivers required ventilation air in a mannet that does not require space conditioning fan operation. Space conditioning fans cycled off when no heating or cooling is required. ! Ventilation provided via natural ventilation per 2015 IMC in lieu of DOAS (C403.6, Exception 1) ! Ventilation and space conditioning provided by a HEVAV system per C403.7 in lieu of DOAS (C403.6, Exception 2) I OOnS included in project, although not required (occupancy not office, retail, education, library or fire station) I OOAS related allowances included in project: I Prescriptive vertical fenestration maximum area allowance increased lo 4O'k pet C402.4.1.4 with 100% of conditioned floor area in building served by DOAS. I Exception to aar economizer per C403.3 Exception 1, include MECH-ECONO form. Fan Power [l Project includes HVAC air distribution systems that provide heating and/or cooling lf yes, provide a MECH-FANSYS -SUM form. I For one or more systems, the total fan motor nameplate hp of all fans in HVAC system exceeds shp. lf yes, provide a seperate MECH-FANSyS form for each HVAC system exceeding the 5 horsepowet threshold. Refer to Section C403.2.11 and MECH-FANSyS-DOC for requirements and exceptions. HVAC Hydronic Systems ! Hydronic chilled water ! Hydronic heating water l-l Water-loop heat pump E Geotnermat I No hydronic systems C405 Additional Efficiency Options - Mechanical ! C+OO.Z More efficient HVAC equipment and fan systems Requires 90% of heating and cooling capacity to be equipment listed in tables C403.2.3(1)-(9) or air-to-watet heat pumps and heat recovery chillers. All equipment listed in tables C403.2.3(1)-(7) must be 15%o more efficient than minimum requirements. All stand alone supply, retum, and exhaust fans over t hp must have FEQ > 71 and must be selected within 10/o of maximum total or static pressure. B CaOO.O Dedicated outdoor air system (DOAS) Requires 90%o of conditioned floor area to be served by a DOAS per C403.6 that delivers required ventilation air in a manner that does not require space conditioning fan operation. ! CaOO.Z Reduced energy in service water heating Requires90/ooffloorareabein occupancytypeslistedinC406.T.l andthat60%oofannualhotwaterenergyuse be provided by heat pump, waste heat recovery or solar water-heating syslems- Mechanical Summa ECH-SUM 2015 WaShingtOn State energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 20'15 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January 201 7 Service Water Heating Systems Equipment Type (s) B Hot water heating tank(s) I Dedicated boiler Distribution Type (s) ! Circulation System [-l lnstantaneous l-l Heat exchange from space heat boiler or " central hotwater/steam ! No service water systems B on-oemand Commissioning Commissioning is required for: ! Mechanical systems per g08.2 [ Service water heating systems per C408.4 lf required, commissioning shall be pertormed for all applicable sysfems regardless of individual equipment capacity. Exceptions to commissioning requirements: [-J-l Total output capacity of all mechanical space conditioning systems in the building do not exceed 240,000 Btuih - cooling or 300,000 Btu/h heating. Mechanical systems commissioning not required. fll Capacity of largest service water heating system in building does not exceed 200,000 Btu/h. Service water heating - systems commissioning not required. Low Energy and Semi-Heated Spaces (Note 6 and 7) Space Type Location in Plan(s)Space(s) Served Area Served, square feet Heating Capacity, Btu/h (Note 4) Cooling Capacity, Btu/h (Note 5) Peak Space Conditioning Capacity, Btu/h-sf Compliance Check Notes Note 4 - Provide total installed heating output capacity of systems seruing Low Energy or Semi-Heated space(s) in btuh. Note 5 - Provide total installed cooling capacity of system serving Low Energy space(s) in Btu/h. Not allowed for semi-heated spaces. Enter 0 if no cooling. Note 6 - Refer to Section C402.1.1 Low Energy Building. lntalled peak space conditioning capacity, heating or cooling, may not exceed 3.4 Btu/h'sf. Note 7 - Refer to Section C402.1.1.1 and Semi-Heated Space definition in Chapter 2. Total heating output capacity may not exceed 8 Btu/h.sf. Onty systems without electic resistance heating and no cooling are eligible for the wall insulation exception under semi-heated. Mechanica! Summa 2 MECH.SUM Mechanica! Permit Plans Checklist MECH.CHK 20'15 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 3 of 12 5 State Code Forms for Commercial R2 & R3 over 3 stories and all R1 Revised 2017 lndicate locations of return air dampers thal are integral to economizer operation; veri0/ are motorized; indicate whether dampers are Class 1, or within packaged equipment Project Title:19307 DS Jefferson County PUD 36x60 Office L0/4/2018Date The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na)Code Section Code Provision lnformation Required - Must be in permit documents Location in Documenls Building Department Notes Equipment - Sizing, Performance and Type NA c403.1 Exempt process equipment ldentify equipment to be used in manufacturing, industrial or commercial processes that do not provide space conditioning; identify provisions applicable to this equipment per C403.1 exception Yes c403.2.1 Load calculations Provide load calculations performed per ASHRAE Std '183 or equivalent, using design parameters per C302 and Appendix C; include load adjustments to account for energy recovery E-1 c403.2.2 Equipment and system sizing lndicate that output capacities of heating and cooling equipment and systems are no grealer than the smallest available equipment size thal exceeds the calculated loads; note exceptions taken M-1, E-1, Specs Yes c403.2.3 c403.2.3.2 c403.2.1 3.1 HVAC equipment performance requirements (efficiency) Provide equipment schedules on plans or complete MECH-EQ forms indicating type, capacity, rated and WSEC minimum efficiencies for all heating and cooling equipment; include supply and OSA cfms and operating hours for all air syslems; identify heating and cooling equipment that does not have a conesponding WSEC minimum efficiency (manufacturer rated) M-1, E-'l Specs List all motors > 1/1 2 hp (that are not integral to a raled piece of equipment) in the mechanical or electrical equipment schedules on plans; indicate hp, rpm, number of poles and rated efficiency, or exception applied M-1, E-1, Specs Yes c405.8 c403.2.14 Electric motor efficiency Forfractional hp motors (1/12 - t hp), indicate whetherthey are an electronically commutated motor, have rated efficiency of at least 70%, or exception taken For all HVAC fan systems that provide heating and / or cooling, provide system total nameplate hp in MECH-FANSYS-SUM form x Yes c403.2.11.1 Fan power limitation For all applicable HVAC systems with total fan motor hp > 5hp, verifu fan system motor hp or bhp complies wilh fan power limits per equations in Table C403.2.11.1(1), provide MECH- FANSYS form for each system NA c403.2.11.2 Motor nameplate hp For all applicable HVAC systems with total fan motor hp > shp, indicate fan motors specified are the smallest available motor hp size greater than fan bhp, note exceptions taken NA c403.2.11.3 Fan efficiency For all applicable HVAC systems with total fan motor hp > 5hp, identify in equipment schedule all fans required to comply with lan emciency grade and indicate rated FEG is > 67, or exception laken; indicate these fans are sized so total efficiency is within 1 5% of the fan maximum total efficiency NA c403.?.11.4 Group R occupancy exhausl fan efficacy For all exhaust fans < 400 cfm in Group R occupancies, indicate in equipment schedule lhe fan flow rate and efficacy (cfm/watl), or exception taken; refer to Table C403.2.1 1.4 (CE-57) NA c403.2.13 Variable flow capacity - fans For fan motors > 7.5 hp, indicate method of variable flow control (VSD or equivalent method) in equipment schedule, or exception taken; for equivalent method for an HVAC system refer to HVAC System Controls for additional requirements NA c403.2.3 Maximum air cooled chiller capaciW For chilled water plants and buildings with > 500 tons of cooling capacity, indicate air-cooled chiller capacity is < 100 tons, or exception taken NA c403.4 Large capacity cooling systems For buildings with ) 300 tons of moling capacity, indicate method of multi-stage or variable capacity control (VSD, multiple staged compressors, or max capacily of any single unit < 66% of the total) NA c403.2.3.1 Non-standard water-cooled centrifugal chillers For water-cooled centrifugal chillers not designed for operation at standard conditions, provide calculations documenting maximum full load and part load rated equipment performance requirements NA c403.2.1 3.1 c403.4.3.2 Centrifugal fan open-circuit cooling towers For open-circuit centrifugal fan cooling towers with > '1,1 00 gpm capacity, indicate cooling towers comply with efficiency requiremenls for axial fan open circuit cooling towers For single boilers with > 500,000 Btuih capacity, indicate multi-stage or modulating burner NA c403.4.2 c403.4.2.5 Large capacity boiler systems For boiler system (single or multiple) with > 1,000,000 Btu/h capacity, indicate turndown ratio per Table C403.4.2.5 and method (multiple single input boilers, modulating boilers, or combination) NA c403.2.13 Variable flow capacity - pumps For pump motors : 7.5 hp, indicate method of variable flow conlrol (VSD or equivalent method) in equipment schedule, or exception taken; for equivalent method for a hydronic system refer to Hydronic System Controls for additional requirements NA c403.2.3 Gas and oil-fired forced air fumace and unil heaters For forced air furnaces with capacity > 225,000 Btu/h and all unit heaters, indicate in equipment schedule intermittent ignition or llD, flue or draft damper, and rated jacket loss NA c403.2.4.8 Combustion heating equipment For combustion heating equipment with output capacity > 225,000 Btu/h, indicate modulating or staged combustion conlrol Yes c403.2.3.3 Packaged electric heating / cooling equipment Verify all packaged electric equipment with > 6,000 Btu/h cooling capacity and any amount of heating is a heat pump; include in equipment schedules M-1, E-1 Specs NA c403.2.12 Heating outside a building lndicate systems providing heating in non-enclosed outdoor occupied spaces are radiant systems; refer to HVAC System Controls for additional requirements NA c403.2.7.1 Kitchen exhaust hoods lndicate on plans the type, duty and exhaust air rate of each kitchen hood, refer to HVAC System Controls for additional requirements Yes c403.2.4.3 Outdoor supply air, exhaust and relief dampers lndicate locations of OSA intake, and exhaust and relief outlet dampers on plans; indicate whether dampers are Class 1 motorized, or gravity and exception taken (include leakage rating, cfrn/s0; refer lo HVAC System Controls for additional requirements for OSA dampers M-'1, Specs Yes M-1, Specs c403.2.4.3 Return air dampers for leakage rating exception (include leakage rating, cfm/sf) Yes 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 4 of 12 Mechanical Permit Plans Checklist MECH.CHK State Code Forms for Commercial R2 & R3 over 3 stories and all R1 Revised 2017 Project Title:19307 DS Jefferson County PUD 36x60 Office Date t0/4/2078 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (ves,no,na)Code Section Code Provision lnformation Required - Must be in permit documents Location in Documents Building Department Notes NA c403.?.4.3 Stairway and shafl vent dampers Indicate location of stairway and shaft vent dampers on plans; verify dampers are Class 1 motorized; refer to HVAC System Controls for additional requirements NA c403.2.4.4 Zone isolation dampers For systems serving areas > 25,000 sf or spanning more than one floor, that include areas that are expected to be occupied non-simultaneously; identify isolation zone areas on plans and locations of associated isolalion dampers in HVAC distribution system; refer lo HVAC System Controls for additional requirements NA c403.2.3.4 Humidification For cooling systems with humidificalion equipment that are also required lo have air economizer, indicate humidilier is adiabatic (direct evaporative or fog atomization), or exception taken Additional Efficiency Package Option, More Efficient HVAC Equipment & Fan Performance - Must comply with all 3 provisions to be eligible NA c406.2.1 c403.2.3 HVAC system selection To comply \,vith additional efficiency package option, calculate the percentage of heating and cooling equipment in the project (based on output capacity) that do not have a coresponding WSEC listed efficiency; shall be less than 10% to comply NA c406.2.2 c403_2.3 Minimum equipment efficiency To comply with additional efficiency package option, indicate that all listed heating and cooling equipment have a rated efficiency that exceeds WSEC listed efficiency by at least 1 5% NA c406.2.3 c403.2.11.3 Minimum fan efficiency To comply with additional efficiency package option, indicate rated FEG of stand alone fans is > 71;indicatethesefansaresizedsothefanefficiencyatdesignconditionsiswithin l0%ofthe maximum total or static efflciency HVAC System Controls Yes c403.2.4.1 Thermostatic controls (thermostats and humidistats) lndicate locations of thermostatic and humidity control devices and the zones they serve on plans, includinq perimeter system zones M-1 Where adjacent (neighboring) zones are controlled by separate thermostats (including perimeter systems used to offset heat gain or loss), and are connected by permanent openings > 1 0% of either zone sf area, indicate controls configured to prevent adjacent zones from operating in conflicting modes (one in heat, other in cool); applies to adjacent perimeter zones, adjacent nonperimeter zones, and adjacent perimeter and nonperimeter zones lf applying Exception 2 to nonperimeter zones adjacent to perimeter zones, indicate that setpoints and deadband settings in these zones are coordinated so cooling in a nonperimeter zone does not occur until the temperature in thal zone is 5'F higher than the adiacent perimeter zone temperature in heating Yes c403.2.4.1.1 Heat pump supplementary heat lndicate staged healing operation with compression as the first stage of heating and supplemental heating controlled with outdoor lock-oul temperature set to 40'F or less M-1, specs Yes c403.2.4.1.2 Deadband lndicate zone thermostatic controls configured with 5"F minimum deadband for systems that control both heating and cooling M-1, specs Yes c403.2.4.1.3 Setpoint overlap resiriction (thermostats) lf separate heating and cooling systems with separate thermoslalic control devices are used to serve a zone, indicate locations of both thermostatic control devices and the zone they serve on plans lndicate a limit switch, mechanical stop or DDC control with programming to prevent simultaneous heating and cooling M-1, specs Yes c403.2.4.2 c403.2.4.2.',| c403.2.4.2.2 Automalic setback and shutdown lndicate zone thermoslatic controls configured with required automatic setback and manual override functions, setback temperatures, and control method (automatic time clock or programmable controls); note exceptions taken M-1, specs Yes c403.2.4.2.3 Automatic (optimum) start lndicate system controls that adjust equipment start time required to bring each area served up to desiqn temperalure iust prior to scheduled occupancv M-1, specs Yes c403.2.4.3 Outdoor supply air dampers lndicate automatic controls configured to close OSA damper during unoccupied equipment operation; not including economizer cooling, niqht flush or IMC required OSA / exhaust M-1, specs NA c403.2.4.3 Stairway and shafl vent dampers lndicate method of activation of stairway and shafr venl dampers (fire alarm or interruption of power) NA c403.2.4.4 Zone isolation controls For systems serving areas > 25,000 sf or spanning more than one floor, that include areas that are expected to be occupied non-simultaneously; indicate controls that allow for independent space conditioninq of isolalion zones; or exception taken NA c403.2.12 Heating outside a building lndicate occupancy sensing or timer switch controls configured to automatically shut off heatinq system when area served is unoccupied Yes c403.2.4.5 Snow melt systems lndicate automatic controls configured to shut off system when pavement temperature exceeds 50'F and no precipitation is falling, and when ouldoor air temperature exceeds 40'F M-1, specs Yes c403.2.4.6 Freeze protection system controls lndicate automatic controls to shut off system when outdoor temperature exceeds 40'F, or conditions protect fluid from freezing M-1, specs NA c403.2.4.9 Group R1 hotel / motel guest rooms For hotels and motels with over 50 guest rooms, indicale automalic controls serving guest rooms that are capable of setback (heating) and set-up (cooling) of temperature setpoint by at least 5"F; indicate control method - activated by room entry or occupancy sensor 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all Rl - Page 5 of 12 Mechanical Permit Plans Checklist MECH.CHK 20't5 State Code Forms for Commercial R2 & R3 over 3 stories and all R1 Revised 2017 Proiect Title:19307 DS Jefferson County PUO 36x60 Office Date 10/4/2078 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (ves,no,na)Code Section Code Provision lnformation Required - Must be in permil documents Location in Documents Building Oepartment Notes NA c403.2.4.10 c403.2.4.11 Group R2 / R3 dwelling units, Group R2 sleeping units For primary space conditioning system, indicate 5-2 programmable thermostats capable of two setback periods per day; for all thermostats indicate purpose (heating only, cooling only, or both), required temperature range and at minimum a 10"F deadband; or exception taken Yes c403.2.6 c403.2.11.4 Ventilation lndicate method of ventilation air delivery (natural or mechanical) for each zone M-1 lf mechanically delivered, indicate that systems are configured to provide not more than 1 50% of, but at least the minimum required volume of outdoor air to each zone per lMC, ASHRAE 62.1 or other applicable code (WAC, OSHA, etc); or exception laken m-1 lf delivered via natural ventilation, identify required elements per IMC including minimum openable area to lhe outdoors or qualifyinq adjoining spaces NA c403.2.6.2 Demand conkolled ventilation ldentify spaces > 500 sf with occupanl load > 25 people/1,000 sf per IMC; for each space indicate whether it is served by an HVAC system with total design OSA > 3,000 cfm, and / or the system has airside economizer or automatic modulating OSA damper; indicate OSA conlrols are configured to provide demand controlled ventilation or provide supporting documentation for applied exception NA c403.2.6.3 Occupancy sensors For gyms, classrooms, auditoriums and conference rooms > 500 sf, indicale occupancy-based OSA control when space is unoccupied and m€thod (closes OSA damper or shuts-off equipment); or alternate means provided to automatically reduce OSA when space is partially occupied NA c403.2.6.4 c403.2.6.4.1 Enclosed loading dock venlilation For enclosed loading docks, indicate ventilation / exhaust system method of activation (gas detection system for CO and NO2, or occupancy sensors), and control method (staged or modulating) NA c403.2.6.4 c403.2_6.4.2 Enclosed parking garage ventilation For enclosed parking garages, indicate ventilation / exhaust system activated by gas detection system for CO and NO2, and control method (staged or modulating); or exception taken NA c403.2.7.1 Kitchen exhaust hoods Provide calculations that show a balanced accounting of total kitchen exhaust (include all hoods) with % of: supply air, transfer air from adjacent spaces, and make-up air; if applicable, indicate that direct make-up air to each hood does not exceed 10% of hood exhaust For kitchens with total hood exhaust exceeding 2,000 cfm, indicale exhaust air rate per Table C403.2.7.1 and compliance method (DCV, energy recovery, or transfer air that would otherwise be exhausted) NA c403.2.7.2 Laboratory exhaust systems Refer to Systems Requiring Energy Recovery for requirements NA c403.2.13 Variable flow capacity HVAC system fans For HVAC fan motors > 7.5 hp, indicate method of variable flow control (VSD, or equivalent control method that reduces design air volume by 50% at 1/3 slatic design pressure); note exception taken NA c403.3.1 DX air handler variable cooling control (Under lntegrated Economizer) For OX air handlers with economizer and cooling c€pacity > 65,000 Btu/h, indicate number of cooling stages provided and method (multiple compressors and / or variable speed compressors); indicate minimum displacement (capacity reduction) as % of full load lndicate control method (cooling capacity controlled in response to space temperature, space temperature controlled by modulatinq supply airflow, or both) NA c403.2j1.5 Fan airflow control For DX air handling units with cooling capacity> 65,000 Btu/h and evaporative and chilled water air handling units with fan > 0.25 hp, indicale whether system is single zone or multiple zone and related control melhod (cooling capacity controlled in response to space temDerature, sDace temDeralure is controlled bv modulatino suoDlv airflow, or both) For mechanical cooling systems (includes DX and chilled water coils) that control cooling capacity in response to space temperature - Provide a minimum of two stages of fan control; indicate minimum fan speed is s 66% of full speed drawing < 40% of full speed fan power durino periods of low coolinq or ventilation only For other mechanical cooling systems (includes DX and chilled water coils) that control space temperature by modulating airflow (in lieu of, or in addition 10, controlling capacity in response to space temperature) - Provide fan controls for modulating supply airflow; indicate minimum fan speed is < 50% of full speed drawing 3 30% of full speed fan power during periods of low cooling or ventilation only; or exception taken NA c403.2.4.12 DDC system capabilities Provide central and zone level DDC controls as required based on system application, capacity or size thresholds and other qualification per Table C403.2.4.12.1 ldentify all DDC system input / output control points; indicate capability for trending and oraohical disolav Ductang Systems Yes c403.2.8.1 c403.2.8.3 Duct construclion Indicate on plans lhat all ductwork is constructed and sealed per IMC M-'r For OSA ductwork, also indicate on plans that ductwork meets air leakage requirements per C402.5 and vapor retarder requirements per the IBC M-1 Yes c403.2.8.3 Duct pressure classifi cations ldentify location of low, medium and high pressure ductwork on plans NA c403.2.8.3.3 High pressure duct leakage test lndicate high pressure duct leakage testing requirements on plans; provide test results to iurisdiction when completed 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all Rl - Page 6 of 12 Mechanical Permit Plans Checklist MECH.CHK 20 State Code Forms for Commercial R2 & R3 over 3 slories and all R1 Revised 2017 Project Title:19307 OS Jefferson County PUO 36x60 Office Date 70/4/20L8 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (ves.no.na)Code Section Code Provision lnformation Required - Must be in permit documents Location in Documents Building Department Notes Yes c403.2.8.1 c403.2_8.2 Duct insulation For supply and return ductwork located in unconditioned space or outdoors, indicate R-value of insulation on ductwork on plans; identifv climate zone; nole exceptions taken For supply ductwork located in conditioned space, identify if design supply temperature is < 55'F or > 1 05"F and indicate R-value of insulation on this ductwork on plans: note exception taken M-1 For OSA ductwork, shafis and plenums, indicate R-value of insulation on these elements on plans per Table C402.'1.3 for steel-framed walls; note exception taken Piping Systems YGs c403.2.9 Piping insulation lndicate design temperature range offluid conveyed in piping and thickness of insulation (in inches) on hydronic pipinq Dlans: or exception taken P-'r NA c403.2.9.'t Piping insulation exposed to weather lndicate method of protection of pipe insulation from damage / degradation on hydronic piping Dlans Economizers Yes c403.3 Air economizer required ldentify in equipment schedules on plans or in MECH-EQ forms all cooling systems requiring air emnomizer controls Provide MECH-ECONO form indicaling systems utilizing air economizer exceptions, including those with water-side economizer in lieu of air economizer; indicale on plans eligible exception(s) taken and measures to comply with exception(s)Exception 1 NA c403.3.1 lntegrated economizer operation - air and water lndicate air and water-side economizers are conligured for partial cooling operation even where additional mechanical coolinq is required to meet the load NA c403.3.2 Economizer heating system impact - air and water Verify control method of HVAC systems with economizers does not increase building heating enerqy usaqe durinq normal oDeration NA c403.3.3.1 Air economizer capacity lndicate modulating OSA and return air dampers are configured to provide up to 100% OSA for coolinq NA c403.3.1 c403.3.3.2 lntegrated air economizer Verify mechanical cooling controls are inlerlocked with air economizer controls so the outside air damper remains in 100% open position when mechanical cooling is also required to meet the coolinq load, until the leavinq air temperature is < 45'F For systems with cooling capacity > 65,000 Btu/h, verify that control of economizer dampers is not based only on mixed air temperature; or exception taken NA c403.3.3.3 Air economizer high limit controls lndicate high limit shuloff control method and required high limit per Table C403.3.3.3 NA c403.3.4.1 Water economizer capacity For eligible systems where water-side economizer may be provided in lieu of air economizer indicate system is capable of 1 00% design cooling capacity at 50'F db / 45'F wb OSA temperatures NA c403.3.4.2 Water economizer maximum pressure drop lndicate pressure drop across precooling coils and heat exchangers in water economizer system do not exceed pressure drop limit NA c403_3-1 DX air handling equipment conlrol For DX air handlers with economizer and cooling capacity > 65,000 Btu/h, refer to HVAC Svstem Controls for requirements NA c403.2.4.7 DX equipment economizer faull detection and diaqnoslics For DX air handlers with economizer and cooling capacity > 54,000 Btu/h, provide a fault detection and diagnostics (FDD) system to monitor economizer syslem operalion and report faults Systems Requiring Energy Recovery NA c403.5.1 Energy recovery (ER) - ventilation / exhaust systems For systems with design OSA > 5,000 cfrn, or design supply air cfm and % OSA exceeding the values in Tables C403.5.1 (1 ) or (2), indicate exhaust air ER method; or exception taken with supportinq calculations For rooms served by multiple systems wilh aggregate design OSA > 5,000 cfm, or aggregale design supply air cfm and % OSA exceeding the values in Tables C403.5.1 (1 ) or (2), indicate exhaust air ER method; or exception taken with supportinq calculations lndicate ER rated effectiveness that increases OSA enthalpy by > 50% based on delta between OSA and return air enthalpies at design conditions NA c403.2.7.2 Laboratory exhaust systems (energy recovery) For buildings with total lab exhaust > 5,000 cfm, indicate method of energy recovery used to pre-condition laboratory make-up air; ER effectiveness (min 25'F); or alternative method per exception (VAV exhaust, semi-conditioned makeup, or CERM calculation) NA c404.10.4 (under c404.1 I ) Pools and permanent spas exhaust systems (energy recovery) For buildings with pools or spas with water surface area > 200 sf, indicate exhaust air ER method and use of waste heat (preheat ventilation air, pool waler or service hot water); or exception taken lndicate ER system has the rated effectiveness and is contigured to decrease the exhaust air temperature at desiqn conditions by > 36'F NA c403.5.2 Energy recovery - steam condensate systems For buildings with on-site steam heating systems, indicate condensate water ER For buildings that use off-site generated steam where condensate is not returned to the source, indicate on-site condensate water ER 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 7 of 12 Mechanical Permit Plans Checklist MECH-CHK 15 Wash State Code Forms for Commercial R2 & R3 over 3 stories and all R1 Revised 2017 Project Title:'19307 OS Jefferson County PUD 36x60 Office L0/4/2018Date The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. (ves.no.na) Applicable Code Section Code Provision lnformation Required - Must be in pemit documents Location in Documents Building Department Notes For buildings with food service, meat or deli departments that have > 500,000 Btu/h of remote refrigeration capacity for coolers / freezers, indicate condenser ER and use of captured energy (service water heating, space heating, or dehumidification reheating) NA c403.5.3 Energy recovery - cooler / freezer condensers For buildings with > 40,000 sf conditioned floot atea and with > 1 ,000,000 Btu/h of remote refrigeration capacity for coolers / freezers, indicate condenser ER and use of captured energy for service water heating and also for space heating, or dehumidification reheating NA c403.5.4 Energy recovery - condenser systems For buildings with 24-hour operation and with > 1,500,000 Btu/h of heat rejection capacity and design seruice hot water load > 250,000 Btu/h, indicate condenser ER to pre-heat service water; or exception taken. Provide calculations showing the amounl of recovered heat that is utilized (60% of peak heat rejection load or pre-heat service water to 85"F). Hydronic System Controls For hydronic system pump motors > 7.5 hp, indicate method of variable flow control (VSD or equivalent method that requires > 30% design wattage at 50% design fluid flow); note exceplion takenVariable flow control - hydronic system pumps ldentify whether hydronic coils have DDC controls and associated manner of pump speed control (differential pressure. zone hvdronic demand. etc) NA c403.2.13 c403.4.2.7 For boilers that provide building heating, indicate controls that provide heating water temperature setback based on outdoor temperature For heating and chilled water systems > 300,000 Btu/h, indicate systems are configured to automatically reset supply water temperature based upon demand; or exception taken. lf svstem oumo motor ho > 3 hD. also indicate controls automaticallv reduce flow bv > 50%.NA c403.2.5 c403.4.2.4 Hydronic system setback and part load controls For chilled water systems (> 300,000 Btu/h, pump motor hp > 3 hp) that serve water-cooled unitary air conditioners, indicate VSD or staged pumps in chilled water system and heat rejection loop that reduce pump flow so that one control valve is nearly wide open, or to maintain a minimum differential pressure; or exception taken NA c403.4.2 Boiler sequencing lndicate automatic controls that sequence operation of multiple boilers NA c403.4_6 Hot gas bypass limitation For cooling equipment with hot gas bypass, provide either multiple step unloading or conlinuous capacity modulation; indicate bypass capacity per Table C403.4.6 NA c403.4.2.2 Two-pipe changeover systems lndicate changeover deadband (min 15'F), heating / cooling mode scheduling and changeover temperature ranqe (limit 30'F) NA c403.4.2.6 Chiller / boiler plant pump isolation lndicate controls are configured to automalically reduce overall plant flow and shut-off flow throuqh individual chillers and boilers when not in use For cooling towers with fan motors > 7.5 hp, indicate VSD and method to adjust fan speed (adjusted based on leaving fluid temperature or condenser temperature / pressure of heat reiection device)NA c403.2.13.1.1 c403.4.3.1.1 c403.4.3.1.2 Heat rejection equipment - variable flow control For multiple-cell heat rejection equipment with VSD, indicate controls that ramp all fans in untson NA c403.4.3.3 Heat rejection equipment - cooling tower flow tumdown lndicate open-circuit cooling towers with multiple pumps or VSD control are designed so all cells can be run in parallel NA c403.4.2.3.1 Water loop heat pump - deadband lndicate capability of central equipment to provide minimum 20"F water supply temperature deadband between heat reiection and heat addition modes: or exception taken NA c403.4.2.3.2.1 Water loop heat pump - heat rejection equipment, Zone 4 lndicate type of cooling tower (open- or closed-circuit) in equipment schedule; indicate method used lo limit system heat loss when heat reiection is not needed Waler loop heat pump - heat rgection equipment, Zone 5 For open- or closed-circuit cooling towers, provide a heat exchanger that separates the cooling tower and heat pump loopNAc403.4.2.3.2.2 NA c403.4.2.3.3 Water loop heat pump - isolation valves For hydronic heat pump systems with total system power > 10 hp, indicate 2-way isolation valves on each heat Dump and variable flow svstem control Dedicated Outdoor Air Systems (DOASI - Optional through 6l30lt6, Prescriptive 7/1l2016 NA c403.6 c403.6.3 Dedicated outdoor air systems For buildings with office, retail, education, library and fire station spaces, identify these spaces on plans; indicate that ventilation air in each occupied space is provided via a DOAS system; or document compliance with C403.6.3 lmpracticality; or exception taken (buildings complying with C402.4.1.4 or C406.6 may not utilize exceptions) NA c403.6.1 Energy recovery ventilation wiih DOAS For all DOAS systems, indicate exhaust air ER method: or exception taken with supporting calculations. lndicate ER rated effecliveness that increases OSA enthalpy by u 50% based on delta between OSA and retum air enthalpies at design conditions. lndicate equipment associated with the delivery of zone level heating and cooling (fans, hydronic pumps, primary air dampers, etc) are conligured to shut off, and central equipment is conligured to turn down, when there is no call for heating or cooling in the zone they serueNAc403.6.2 Heating / cooling system controls with DOAS lf applying Exception to heating / cooling fans used for air mixing in the space during deadband periods, include fan watts per cfm in equipment schedule 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all Rl - Page 8 of 12 Mechanical Permit Plans Checklist MECH.CHK 5 State Code Forms for Commercial R2 & R3 over 3 slories and all R1 Revised 2017 19307 DS Jefferson County PUO 36x60 OfficeProject Title:L0/4/2018Date The following informalion is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (ves.no.na)Code Section Code Provision lnformation Required - Must be in permit documents Location in Documents Building Department Notes NA c402.4.1.4 c403.6 lncreased prescriptive maximum vertical fenestration area with DOAS lndicate that all occupied, conditioned spaces are served by a DOAS per C403.6 Additional Efficiency Package Option, Dedicated Outside Air Systems (DOASI Yes c406.6 Building provided with DOAS To comply with addilional efficiency package option, indicale that 90% or more of all occupied conditioned spaces are served by a DOAS per C403.6 M-1 Multiple Zone Air Systems NA c403.4.4 Air systems serving multiple zones ldentify supply air systems serving multiple zones and the zones lhey serve on plans; indicate whether system is VAV and method of primary air control; or provide supporting documentation for applied exception to VAV Provide equipment schedules on plans or MECH-EQ form that list all VAV air terminals and types NA c403.4.4 VAV systems seruing multiple zones For each air terminal include: maximum airflow rates for primary supply air during zone peak heating and zone peak cooling; maximum airflow during reheating, recooling or mixing; minimum airflow rate to maintain required ventilation, and the basis for these values; if IMC or ASHRAE 62.1 multiple zone equation is basis for minimum flow rates, provide calculalion on plans NA c403.4.4.1 Single duct VAV terminal units lndicate single duct terminal units are configured to reduce primary supply air before reheating or recoolinq NA c403.4.4.2 Dual duct systems - terminal units For systems with separate warm air and cool air ducts, indicale terminal unils are configured to reduce the flow from one duct to minimum before mixing with air from the other duct lndicate locations of duct static pressure sensors on plans; include at least one sensor per maior duct branch; verify controller setpoinl pressure at each sensor is s '1.2 inch w.o. NA c403.4.1.1 c4031.1.2 VAV system static pressure sensors - sensors and DDC set points For systems with zone level DDC, indicate controls are configured to monitor zone damper positions and reset static pressure setpoint based on the zone requiring most pressure; include conlrol logic that automatically detects and generales an alarm if any zone excessively drives reset logic, and allows building operators to exclude zones from reset logic NA c403.4.4.3 Multiple-zone VAV system ventilation optimization controls For systems with zone level DDC controls, indicate controls are configured to automatically reduce outdoor airflow in response to changes in system ventilation efficiency; or exception taken NA c403.4.4.4 VAV system supply air reset lndicate controls automatically reset supply air temperature in response to building loads or outdoor air temDerature; or exceotion taken Multiple Zone HVAC Systems, High Efficiency VAV - Required for systems utilizing C403.6 DOAS Exception 2, must comply with all 16 provisions NA c403.7, Item 1 Air economizer lndicate system is configured for 100% air economizer operation and complies with all related economizer requirements per C403.3 (without economizer exceptions) NA c403.7, Item 2 Direct digital controls (DDC)Provide DDC controls for all components of system; identify all DDC system input / output conlrol points; indicate capability for trending and graphical display NA c403.7, Item 3 Outdoor airflow measurement and reduction For systems with minimum OSA > 2,500 cfm, indicate outdoor airflow monitoring station that measures OSA intake under all load conditions; indicate control sequence that increases or reduces system OSA cfm based on VAV terminal feedback of ventilalion efficiency (per C403.4.4.3 without exceptions) or DCV (per C403.2.6.2) NA c403.7 Item 4 Supply airflow measuremenl For systems with minimum OSA > 2,500 cfrn, indicate supply airflow monitoring station capable of measuring supply air delivered to VAV terminals under all load conditions NA c403.7 Item 5 Zone isolation and maximum area served Verify maximum area served by a single HEVAV system is < 50,000 sf, or one entire floor, whichever is greater; in addition if a system serves > 25,000 sf, lhat includes areas that are expected to be occupied non-simultaneously, indicate zone isolation controls pet C403.2.4.4 NA c403.7, Item 6 lnterior / exterior zone design supply air temperature Verify that VAV terminals seruing interior cooling driven loads are sized per design supply air temperature that is 5"F higher than VAV terminals serving exterior zones NA c403.7 Item 7 Maximum air lerminal inlet velocity ldentify air terminals with minimum primary airflow setpoints > 50% of maximum setpoint in equipment schedule or MECH-EQ form; indicate air terminal inlet velocity does not exceed 900 fpm NA c403.7, llem 8 Sequence of operation lndicate DDC system sequences of operation are designed and configured per ASHRAE GPC 36 NA c403.7, Item 9 Maximum allowable system brake horsepower Verify fan system bhp is < 90% of the bhp limit per Option 2 equation in Table C403.2-1 1.1(1), provide MECH-FANSYS form for each system NA c403.7, Item l0 Fan-powered terminal unit motor and control lndicate all series and parallel terminal fans have electronically commutated molors; indicate DDC control system is configured to vary air terminal fan speed as a function of the load; indicate fan speed during periods of low heating, low cooling, or ventilation only is< 66% of peak design air flow or provide supporting documentation for applied exception 20'15 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all Rl - Page I of 12 Mechanical Permit Plans Checklist MECH.CHK 2015 State Code Forms for Commercial R2 & R3 over 3 stories and all R1 Revised 2017 10 / 4 /2018DateProiect Title:'19307 DS Jefferson County PUO 36x60 Office The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washlngton State Energy Code, Commercial Provisions. Applicable (ves.no,na)Code Section Code Provision lnformation Required - Must be in permit documents Location in Documents Building Department Notes NA c403.7, Item 11 Application of single duct and fan-powered terminal units lndicate VAV terminal types on plans; verify fan-powered terminal units only serve perimeter zones with envelope loads; verity all other zones are served by single duct terminal units NA c403.7, Item 12 Fan-powered terminal unit primary air reset lndicate DDC controls are configured to automatically reset the primary supply air cfm setpoint of all fan-powered terminal unils to the minimum required to maintain ventilation during occupied heating or deadband, based upon the VAV air handling unit OSA ventilation fraction For spaces > 1 50 sf with occupant density > 25 people / 1 000 sf, indicate space is served by a dedicated terminal unil with DCV control that resets terminal unit ventilation setpoint; also indicate occupancy sensor control that automatically reduces minimum ventilation to zero and sets back room heatino and cooling setpoints by > 5"F NA c403.7, Item 13 High occupancy space conlrols Dedicated HVAC systems For server, electronic equipment, lelecom or similar spaces with cooling loads > 5 Ws{, indicate spaces are serued by independent HVAC systems that are separate from HPVAV systems serving rest of building; indicate dedicated HVAC systems have air economizer conlrols or energy recovery per C403.3 Exception I NA c403.7, Item 14 lndicate whether systems are served by a high efficiency heating water plant, or a high efficiencv chilled waler Dlant lf complying via high efficiency heating water plant: lndicate all VAV terminals have hydronic heating coils serued by heating water system with either gas-fired boile(s) with lhermal efficiency > 90%, air-lo-water heat pumps, or heat recovery chillersNAc403.7, Item 15 Central plant efficiency lf complying via high efficiency chilled water planl: lndicate all VAV air handlers have cooling coils served by chillers with rated IPLV efflciency that exceeds WSEC listed IPLV by at least 25yo per f ab]'e C403.2.3(7) (note water-cooled IPLV is max, all others are min); indicate smallest chiller or compressor in plant is s 20% of total plant capaclty, or provide thermal storage sized for <20o/o of total plant capacity NA c403.7, Item 16 Fault detection and diagnostics lndicate DOC system includes a fault detection and diagnostics (FDD) system configured to monitor operation and provide fault reporting of required parameters for all VAV air handlers and VAV air terminal units in the HPVAV system HVAC Equipment Energv Use Meterins NA c409.3.1 HVAC equipment energy use metering For new buildings > 50,000 sf and building additions > 25,000 sf, verify energy use metering of all equipment used to provide space heating and cooling, dehumidification and venlilation will be provided per C409; indicate equipment eligible for exception Documentation and System Specific Requirement To Support Commissioning Indicate that all mechanical systems, equipment, and controls for which the WSEC requires control functions and / or configuration to perform specific functions are required to be commissioned: Yes c408.2 Scope of mechanical systems commissioning For buildings with > 240,000 Btu/h total output cooling capacity or > 300,000 Btu/h total output heating capacity, indicate that all mechanical systems regardless of individual capacity are required to be commissioned; or provide building heating / cooling capacity calculation demonstrating eligibility for exception Exception lndicate in plans and specifications that Cx per C408 is required for all applicable mechanical svstems: lnclude general summary with at a minimum of ltems 1 thru 4 of the Cx plan per C408.1.2 including: narrative description of activities, responsibilities of the Cx team, schedule of activities including veriflcation of project close out documentation per C103.6, and conflict of interest plan (if required); NA c403.2.10 c408.1.1 c408.1.2 c408.1.4.2 c103.6 Commissioning requirements in construction documents lnclude in general summary that a Cx proiect report or Compliance Checklist (Figure C408.1.4.2) shall be compleled by the Certified Cx Professional and provided to the owner prior to the linal mechanical inspection. lndicate in plans that air and fluid flow rates shall be tested and balanced within the tolerances defined in the specifications; indicate systems shall be balanced in a manner to first minimize throttlinq losses, then adiusted to meet desiqn flow condilions NA c408.2.2 Air system and hydronic system balancing c408.2.2.1 Air system balancing devices lndicate devices that provide the capability to balance all supply air outlets, zone lerminals and air handlinq eouiDment requirinq svslem balancinq M-1Yes NA c408.2.2.2 Hydronic system balancing devices lndicate devices that provide the capability to isolale, balance and measure flow across all hydronic equipment requiring system balancing including heating and cooling coils and pumps Yes c40a.2.3 Functional performance testing criteria ldentify in plans and specifications the intended operation of all equipment and controls during all modes of operation, including interfacing between new and existing{o-remain systems M-1 Proiect Close Out Documentation c103.6 Documentation and pro.ject requirements lndicate in plans that project close out documentation and training of building operations personnel is required for all mechanical components, equipment and systems govemed by this code; indicate close out documentation shall include: record documents, O&M manuals, applicable WSEC compliance forms and calculations M-'t Yes 2015 Economizer Exception Summary Refer to Sectlon C403.3 for desciptions of economizer provisions and exceptions. For alterations refer to Section C503.4 and Table C503.4. State Code Com ce Forms for Commercial, R2 and R3 over 3 stories and all R1 5 for Commercial R2 & R3 over 3 stories and all Rl Revised 201 Title: 19307 DS Jefferson County PUD 36x60 Office L0/4/20t8Date All cooling systems shall be configured to provide air economizer operation, regardless of system capacity, for new construction and mechanical system alterations. Various exceptions to this requirement are available. ldentify all systems that an economizer exception will be applied to and additional information as noted below. For Building Dept. Use ECONOMIZER EXCEPTIONS. NEW CONSTRUCTION AND ADDITIONS Exp 1 Cooling equipment seruing spaces that are provided with a dedicated outdoor air system (DOAS) per C403.6. Spaces served shall have year- round design cooling loads from lights and equipment less than 5 watts per square foot. System lD 0.75 0.56 Loads Lighting + Equipment Single zone unitary or package sysfems with dehumidificaflon that affect other systems such that air economizer would increase energy consumption. System lDExp2 High efficiency single zone unitary or packaged sysfems. Equipment cooling efficiency shall be better than the WSEC required minimum efficiency by at least 64% in Climate Zone 4C and 59% in Climate Zone 58 per Table C403.3. Exp 3 Equipment that provides hydronic chilled water for chilled beams and chilled ceiling systems that is served by a water economizer system per C403.3.4 in lieu of air economizer. Exp 4 ID Water-source heat pumps with heat recovery. Heat pump efficiency shall be 15o/o better than WSEC required minimum efficiency. Provide at minimum 6Ook air economizer. Energy recovery to preheat OSA shall have at least 50% effectiveness. Additional system requirements apply. Exp 5 Cooling equipment seruing Group R occupancies. Per unit limit is less than 20,000 Btu/h cooling capacity for equipment installed outdoors or in a mech room adjacent to the outdoors. For cooling equipment installed in other locations the unit limit is less than 54,000 Btu/h. Efficiency shall be 15% better than WSEC required minimum efficiency. Exp 6 System !D Cooling CapacityEquipment Location Variable refrigerant flow (VRF) systems with energy recovery. Outdoor unit shall be a reverse-cycle heat pump with variable speed compressor(s) and condenser fan(s). Outdoor unit cooling capacity shall be not less than 65,000 Btu/h. Energy recovery to preheat outdoor air shall have at least 50% rated effectiveness. System shall be capable of providing simultaneous heating and cooling by tranferring recovered energy from zone(s) in cooling mode to other zone(s) that are in heating mode. Exp 7 Cooling CapacityOutdoor Unit System lD Cooling equipment seruing Controlled Plant Growth Environments. Equipment cooling efficiency shall be better than WSEC required minimum efficiency by at least 20%. Not eligible: unitary and applied heat pumps. Exp 8 Syatem lD SEER, EER, & IEER System lD Lighting + Equipment Loads (Wsf) Cooling equipment with energy recovety. Spaces served shall have year-round design cooling loads from lights and equipment greater than 5 watts per square foot. Energy recovery system shall utilize recovered energy for on-site space heating or preheating of service hot water. Provide calculations to the code official that demonstrate the amount of recovered energy used for on-site heating purposes is equivalent to the annual energy that would be saved by the cooling system with air Exp 9 economizer c403.3. Economtzer Exceptions MECH.ECONO 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all Rl Economizer Exception Summary Refer to Secflon C403.3 for descriptions of economizer provisions and exceptions. For alterations refer to Section C503.4 and Table C503.4. I/ 2015WashingtonStateEnergyCodeComplianceFormsforCommercialBuildingsDcL LO/4/20L8DateProject Title: ECONOMlZER EXCEPTIONS. NEW CONSTRUCTION AND ADDITIONS, CONTINUED Exp 10 Cooling equipment for dedicated seruer, electronic equipment or telecom switch rooms. Per building limit for this exception is 240,000 Btu/h cooling capacity or 1Qo/o ot required building air economizer capacity, whichever is greater. Part load control required over 85,000 Btu/h. Additional requirements apply. Option a - Cooling equipment efficiency shall be 15% better than the WSEC required minimum efficiency.. Option b - Waterside economizer required. Cooling equipment efficiency shall be 5% better than the WSEC required minimum efficiency. Option c - Waterside economizer required. All cooling equipment is subject to ASHARE Standard 127. Total Claimed Exempt Capacity: Total building air economizer capacity (if claimed > 240 kBtu/h): Alternate Exp 10 Capacity Limit: System lD Cooling CapacityCompliance Option ECONOMIZER EXCEPTIONS. MECHANICAL SYSTEM ALTERATIONS OR Pre-approved design altemative to full compliance with air economizer requirement. An alternative for mechanical system alterations where existing building constraints make full compliance with air economizer requirement impractical. Provide calculations to the code official that demonstrate the proposed alternate design strategy provides similar energy savings to the annual energy that would be saved by the cooling system with air economizer per C403.3. ID Att. c503.4 Exp 1 ECONOMIZER EXCEPTIONS - SIMPLE SYSTEMS C503.4 Qualifying small equipment. Per unit limit less than 33,000 Btu/h. Per Exp 2 building limit for this exception is 72,000 Btu/h cooling capacity or 5% of required building air economizer capacity, whichever is greater. Cooling equipment efficiency shall be 15% better than WSEC required minimum efficiency. Not eligible: non-unitary equipment, unitary equipment installed outdoors or in mech room adjacent to outdoors, equipment installed during new construction, shell-and-core construction, or initial tenant improvement. Total Claimed Exempt Capacity: Total building air economizer capacity (if claimed > 72,000 Btu/h): Alternate C503.4 Exp 2 Capacity Limit: System lD Cooling Capacity Equipment that provides hydronic chilled water for chilled water terminal unlts. Equipment part load cooling efficiency (IPLV) shall be better than WSEC required minimum efficiency by at least 25o/o. Per building limit for this exception is 480,000 Btu/h cooling capacity or 2QYo ol required building air economizer capacity, whichever is greater. Chilled water terminal units serving Group R occupancies are not included in the building capacity total. Total Claimed Exempt Capacity: Total building air economizer capacity (if claimed > 480,000 Btu/h): Alternate C503.4 Exp 3 Capacity Limit: Slrstem lD Cooling Capacity c503.4 Exp 3 System lD Equipment TYPe Compliance Path Ecclnom izer Exceptions, cont.ECH-ECONO Table c503.4 Compliance Options for alteration or replacement of existing mechanical cooling equipment per Table C503.4. Refer to table and all applicable table footnotes for full requirements. Applies to the following retrofit conditions : Option a - Any new or replacement equipment Option b - Replacement equipment of same type with same or smaller cooling output capacity. Option c - Replacement equipment of same type with large cooling output capacity. Option d - New equipment added to existing system or replacement equipment that is different than existing being replaced. 2015 Washington State Energy Code Co Forms for Commercial, R2 and R3 over 3 stories and all R'1 Mechanical Fan System Power Allowance MEGH.FANSYS.SUM 2015 Washi State Code Forms for Commercial Buildi R2 & R3 over 3 stories R1 Revised Ja 2017 LO/ 4/20L8DateProject Title: 19307 DS Jefferson County PUD 36x60 Office For Building Dept. Use HVAC Air Distribution System Schedule List all HVAC syslems that have the capability to provide heating and/or cooling fo the spaces they serve. Fan Power Calculation Required (Note 4) Speed Control (Note 1) Description (Note 2) System Total Nameplate HP (Note 3) System or Primary Supply Fan lD 0.6 NoHP1,2&3 CV (3) 2 ton SPVHP w/ 1/5 hp fan Note 1 - Constant Volume (CV), Vanaile Air Volume (VAV), or Hospital/Lab CV system that qualifies for VAV budget per C403.2.11.1 Exception 1. Single zone VAV systems shall comply as CV. Note 2 - Descibe system type and list all fans (or groups of fans) associated with the delivery and removal of conditioned air by the system- lnclude att supply, retum/relief, exhaust and exhaust hoods (r1 hp), make-up air, dedicated outside air (DOAS), boosterfans, and senes fan-powered terminals. VAV parallel fan-powered terminals and economizer relief fans do not need to be included if the fans do not operate at peak conditions. Note 3 - Enter the total nameplate hp of all fans assocrated with the delivery and removal of conditioned air by the system. Note 4 - This form automaticalty identifies whether a MECH-FANSYS form is required to demonstrate compliance with the fan power allowance (Yes), or this information is not required because the system has a combined total nameplate motor hp that is 5 hp or /ess (No/ MECH-FANSYS Forms A MECH-FANSYS form shall be provided for each system with total nameplate hp greater than 5 hp. Select (Add Fan Syslem Form) to generate an additional form. Added forms can be deleted with button in cell E32 of the added form. THE WAIL-MOUIUTTM HEAT PUMPS - 10.0 EER, (60H2) C linaae Control Solutio6 The Bard Wall-Mount Heat Pump is a self contained energy efficient heating and cooling system, which is designed to offer maximum indoor comfort at a minimal cost without using valuable indoor floor space or outside ground space. This unit is the ideal product for versatile applications such as: new construction, modular offices, school modernization, telecommunication structures, portable structures or correctional facilities. Factory or field installed accessories are available to meet specific job requirements. Aluminum Finned Copper Coils: Grooved tubing and enhanced louvered fin for maximum heat transfer and energy efficiency. Twin Blowers: Move air quietly. Most models feature multispeed blower motors providing airflow adjustment for high and low static operation. Motor overload protection is standard on all models. Heat Pump Compressor: Scroll Compressors are standard on all IVz to 5 ton models. Eliminates need for crankcase heater. Phase Rotation Monitor: Standard on all 3 phase scroll compressors. Protects against reverse rotation if power supply is not properly connected. R-410A Refrigerant: Designed with R-410A (HFC) non-ozone depleting refrigerant in compliance with the Montreal protocol and 2010 EPA req u irements. Liquid Line Filter Drier: Standard on all units. Protects system against moisture. Galvanized 20 Gauge Zinc Coated Steel Cabinet: Cleaned, rinsed, sealed and dried before the polyurethane primer is applied. The cabinet is handsomely finished with a baked on, beige textured enamel, which allows it to withstand 10O0 hours of salt spray tests per ASTM 8117.03. Foil Faced lnsulation: Standard on all units. Electrical Components: Are easily accessible for routine inspection and maintenance through a right side, service panel opening. Features a lockable, hinged access cover to the circuit breaker or toggle disconnect switch. Electric Heat Strips: Features an automatic limit and thermal cut-off safety control. Heater packages are factory or field installed for all 172 through 5 ton models. Features easy slide-in field assembly with various BTUH outputs. Condenser Fan and Motor Shroud Assembly: Slide out for easy access. Filter Service Door: Separate service door provides easy access for filter change. One lnch, Disposable Air Filters: Are standard equipment. Optional one inch washable filters available and filter racks permit the addition of 2' pleated filter, Factory or field installed. Solid State Electronic Heat Pump Control: Provrdes efficient 30, 60 or 90 minute defrost cycle. A thermistor sensor, speed up terminal Ior service and 10 minute defrost override are standard on the electronic heat pump control. High & Low Pressure Switches are Auto- Reset: Standard on all units. Built-in lockout circuit resets from the room thermostat. Provides commercial quality protection to the compressor. Five Minute Compressor Time Delay: Short cycle delay on make and break timer protection is standard. Built into the heat pump control. Emergency Heat Circuit: Permits continuous operation of the system. Barometric Fresh Air Damper: Standard on all units. Allows up to 25% outside fresh air. All packages are designed to meet your specific venti lation requirements utilizing one of six ventilation options for the product. All assemblies can be factory installed, installed in the f ield at time of installation or as a retrofit system after installation. . Standard - Barometric Fresh Air Damper o Optional - Motorized Fresh Air Damper. Optional - Blank off Plate. Optional - Commercial Room Venti lator MExhaust . CRV - Spring Returnr Optional - Economizer with Exhaust, Enthalpy or Dry Bulb o Optional - Energy Recovery Ventilator Bard is an ISO 9001,2008 Certified Manufacturer Form No. 53523{18 Supersedes S3523-318 Page 1 ol28 Built-in Circuit Breakers: Standard on all electric heat versions of single and three phase (230/2O8 volt) equipment. Toggle disconnects are standard on all electric heat versions of three phase (460 volt) equipment. Slope Top: Standard feature for water run-off. Full Length Mounting Brackets: Built into cabinet for improved appearance and easy installation. NOTE: Bottom mounting bracket included to assist in installation. Top Rain Flashing: "CD,. lntertek Models: Heating Capacities: Cooling Capacities: W18HA to W60HA 60 Hz (16,500 to 56,500 Btuh) (17,100 to 58,000 Btuh) GnsuN RnpnrcpRAIW R-4104 Engineered [leatures Ventilation System Packages . Complies with efficiency requirements of ASHRAE/IESNA 90.1-20i3.. Certified to ANSI/ARl Standard 390-2003 for SPVU (Single Package Vertical Units).r lntertek ETL Listed to Standard for Safety Heating and Cooling Equipment ANSI/UL 1995/CSA 22.2 No. 236-05, Fourth Edition.. Commercial Product - Not intended for Residential application. Bard A!{P, cERTTFTED, www nhrd'rrclory oIg HPSrnqle Pachqe Vefrrcal AHRI Sbndard 390 MODELS Cooling BTUH O EER O WISHA 1 7, 100 10.20 W24HA 24,600 10,00 W3OHA 30,000 10.00 W35HA 34,600 10.00 w42HA 40,500 10.20 W48HA 47,000 i0.00 WSOHA 58,000 10.40 High Temp Heating (47F) BTUH O coP @ I 32,000 3.00 38,500 3.00 44,000 3.00 56,500 3.00 Low Temp Heating (17F) BTUH O coP @ 14,600 2,OO 1 18,800 2.70 20,000 2.70 22,500 2.00 26,000 2.OO 36,500 2.20 W24HA.A 230t20a - 7 197 -253 230t208 10.4tL2.4 1.2.4 64/64 Scroll 1/5 - 1075 t.2 18'- 1700 1/6-1 100-1 1.0 800 -. 2 16x25x1ffi 3.5 1.0 10.0 69.0 69.0 Specifications lVzthrrou.gh 3 Ton @ Capacity is certified in accordance with ANSI/ARl @ EER = Energy Efficiency Ratio, COP = Coefficient of Performance and are certified in accordance with ANSI/ARl Standard 390-2003. MODELS Eleetrical Rating - 50 Hz 0perating Voltage Range Compressor-Circuit A Voltage Rated Load Amps Branch Circuit Selection Current Lock Rotor Amps Compressor Type Fan Motor & Condenser Fan Motor--HP--RPM Fan Motor--Amps Fan--DltuCFM Blower ltlotor & Euap. Blower Motor--HP-RPM-SPD Blower Motor--Amps CFM Cooling & E,S.P w/Filter (Rated Wet Coil) Filter Sizes (inches) STD. Basic Unit Shipping Weight-LBS +Barometric Fresh Air DamperLbs +Blank-Off Plate-Lbs +Motorized Fresh Air Damper-Lbs +Commercial Room VentilatotrLbs +Economizer-Lbs MODELS Electrical Rating - 60 Hz 0perating Voltage Range Compr€ssor-Circuit A Voltage Rated Load Amps Branch Circuit Selection Current Lock Rotor Amps Compressor Type Fan Motor & Condenser Fan lvlotor HP RPNI-SPD Fan Motor Amps Fan DIA,TCFM Blower Motor & Evap. Blower Motor HP RPIM'SPD Blower Motor--Amps CFM Cooling & E.S.P. w/Filter (Rated-Wet Coil) Filter Sizes (inches) STD. Baslc Unlt Shipping Weight-LBS +Barometric Fresh Air Damper-Lbs +Blank-Off Plate-Lbs +Motorized Fresh Air Damper-Lbs +Commercial Room VentilatorLbs +Economizer-Lbs Venti lator-Lbs Form No. S3523-418 Supersedes S3523-318Page 2ot28 97-253 w24HA-C 460-3 4 14-506 797-253 230t208 11.2n2.7 14.1 77 /77 Scroll 1t5 - 7075 1.5 20' - 2200 W3OHA-A W3OHA.B w30HA-C W36HA.A W35HA.B w36HA-C -3 460-3 197-253 414-506 197-253 197-253 23U20A 14.6116.6 ).7.9 tt2nt2 Scroll y5 - to75 1.5 20" -2200 230t204 10.8/12.3 t3.2 88/88 Scroll 1/5 - 1075 20'-2200 460-3 4 1 4-506 460 5.6 6.0 44 Scroll 1/5 - 1075 o.8 20'-2200 797-253 230/208 5.8t8.2 9.0 48t48 Scroll 30/208 8.3 58/58 Scrol I - 1075 7.2 '- 1700 I 100-1 1.0 28 Scroll 1/5 - 1075 0.8 18'- 1700 i/5 - 1075 1.5 20' - 2200 1/5 - 1075 0.8 20' - 2200 460 5.0 ffil5.1 1/5-1 1.2 18',- 1 y6-17 1/6,1100-1 .45 800 .2 16 x 25 x 1 345 3.5 1.0 10.0 69.0 69.0 i/3-1 100-2 2.6 1000 - .4 16x30x1 ffii 4.0 1.0 1 1.0 75.O 75.0 56.0 1/3 1100 2 2.6 1000 .4 16x30xi 375 4.0 1.0 1 1.0 75.0 75.0 56.0 1/3,1100 2 0.8 1000 .4 16x30x1 375 4.0 1.0 11.0 75.0 75.O 56.0 1/3-1100 2 2.6 r 100 .3 16x30x1 380 4.0 1.0 11.0 75.O 75.O 56.0 1/3-1 100-2 2.6 1100 - .3 16x30xlffi 4.O 1.0 11.0 75.O 75.O 56.0 1/3 1100,2 0.8 1100 - .3 16x30xl 380 4.0 1.0 1 1.0 75.0 75.O 56.0+ 0.8 600 - .2 16x25xffi 3.5 1.0 10.0 69.0 69.0 20x30x1 480 4.5 1.0 43.0 10.5 7 0.5 79.O x25x1 345 1.0 10.0 69.0 69.0 W42HA.A 230t204 - I 191-253 230t204 14.3/16.5 77.9 7t2t772 Scroll u3-425-2 2.6 24', - 2950 Lt3-1o70-2 2.3 1400 - .4 W42HA.B -3 197-253 230/208 10.8/12.5 13.5 88/88 Scroll 7t3-825-2 2.6 24" - 2950 w42HA-C 460-3 414 506 460 5.6 6.0 44 Scroll 1t3-825-2 1.3 24'. - 2950 W48HA.A 230t208 - | 197 -253 230t204 17.4t22 3 22.3 1t / nl7 Scro W48HA-B 230t204 - 3 t91-253 230t204 tt.2n4.t 14.1 83/83 Scroll u3-425-2 2.6 24' - 2950 l/2-1o70 2 1550 - .2 20x30x1 485 4.5 1.0 43.0 70.5 10.5 W48HA.C 460-3 474-506 WsOHA.A 230/2AA - 1 1.97 -253 t/3-825-2 2.6 24'- 3100 230t208 - 3 t97 253 1t3-825-2 2.6 24',- 3100 3t4 to70 3 3.9 1100 - .2 20x30x1 530 4.5 1.0 43.0 70.5 7 0.5 460-3 414 506 460 9.0 9.0 52 Scroll U3-825-2 1.3 24'- 3100 3t4 1070 3 1.7 1700 - .2 20x30xl s30 4.5 1.0 43.0 l o,5 70.5 W6OHA.B w60HA-C 460 6.4 6.4 41 Scroll I 1t3-1070-2 2.3 1400 - .4 20x30x I 480 4.5 1.0 43.0 70.5 70.5 U3-tO70-2 1.2 i400 - .4 20x30x1 480 4.5 1.0 43.0 70.5 70.5 u2.t070.2 2.3 1550 , .2 1t3-825-2 1.3 24', - 2950 ).t2 lo10 2 1.2 1550 -.2 20x30x1 485 4.5 1.0 43.0 70.5 70.5 3/4 1070 3 3.9 1700 - .2 20x30x1 530 4.5 1.0 43.0 7 0.5 7 0.5 2.6 - 2950 t/3 24 425 2 20x30x1 485 4.5 1.0 43.0 70.5 70.5 Specifications SYzthtough 5 Ton Capacity and Efficienctr 16,500 3.00 23,400 3.00 29,800 3.00 10,200 2.OO 1 ,2 2sono8 1 %u208 26t30.t I rs.slrz.s 30.1 L,.n rs4n34 L,orrro Scroll I Scrott Ventilation System Packages Bard Wall-Mounts are designed to provide optional ventilation packages to meet all of your ventilation and indoor air quality requirements. All units are equipped with a barometric fresh air damper as the standard ventilation package. All ventilation packages can be built-in at the factory or field-installed at a later date. BAROMETRIC FRESH AIR DAMPER STANDARD The barometric fresh air damper is a standard feature on all models. lt is installed on the inside of the service door and allows outside ventilation air, up to 25% of the total airflow rating of the unit, to be introduced through the air inlet openings and to be mixed with the conditioned air. The damper opens during blower operation and closes when the blower is off. Adjustable blade stops allow different amounts of outside air to be introduced into the building and can be easily locked closed if required. Barometric Fresh Air Damper BLANK OFF PLATE OPTIONAL A blank off plate is installed on the inside of the service door. lt covers the air inlet openings, which restricts any outside air from entering the unit. The blank off plate should be utilized in applications where outside air is not required to be mixed with the conditioned air. MOTORIZED FRESH AIR DAMPER OPTIONAL The motorized fresh air damper is internally mounted behind the service door and allows outside ventilation air, up lo 25"/" of the total airflow rating of the unit, to be introduced through the air inlet openings and to be mixed with the conditioned air. The two position damper can be fully open or closed. The damper blade is powered open by a 24VAC motor with spring return on power loss. The damper can be controlled by indoor blower operation or can be field connected to be managed based on building occupancy. NOTE: The above vent systems are intake only without built-in exhaust capability. Building will likely require separate field installed barometric relief or mechanical exhaust elsewhere within the conditioned space. Balancing dampers in the return air grille may be required to achieve specified amount of outdoor air intake. Motorized Fresh Air Damper COMMERCIAL ROOM VENTILATOR OPTIONAL The built-in commercial room ventilator is internally mounted behind the service door and allows intake of outside ventilation air. lt includes a built-in exhaust air damper for room pressurization relief. The commercial room ventilator (CRV) is a simple and innovative approach to improving the indoor air quality by providing fresh air intake and exhaust capability through the CRV. The damper can be easily adiusted to control the amount of freshairsuppliedintothebuilding. TheCRVcanbecontrolledbyindoorbloweroperationorfieldcontrolledbasedon room occupancy. Complies with ANSI/ASHRAE Standard 62.1 "Ventilation for Acceptable lndoor Air Quality". Standard Features: oFully modulating .Honeywell Hi-Torque Actuator with 0-10V signal input capability .No hood required .Simple single blade design . Positive shut-off with non-stick gaskets .Solid State Controller with occupancy CFM setting and modulating 4-20 mA thermostat signal input Commercial Room Ventilator ECONOMIZER OPTIONAL The built-in economizer is internally mounted behind the service door and allows outside ventilation air, up to 100% of the total airflow rating of the unit. lt includes a built-in exhaust air damper for room pressurization relref. The economizer is designed to provide "free cooling" when outside air conditions are cool and dry enough to satisfy cooling requirements without running the compressor. This in turn provides lower operating costs, while extending the life of the compressor. Standard Features: .Full rated outdoor intake .Fully modulating . Honeywell Hi-Torque Actuator .7- intake hood with filter .Simple single blade design .Positive shut-off with non-stick gaskets .Electronic DB and/or Enthalpy sensors depending upon version .Honeywell JADE electronic economizer module with precision settrngs and diagnostics .DB or Enthalpy economizer versions available Economizer WALL.MOUNT ENERGY RECOVERYVENTILATOR OPTIONAL The wall-mount enerry recovery ventilator (ERV) is a highly innovative approach to meeting indoor air quality ventilation requirements as established by ANSI/ASHRAE Standard 62.1. The ERV allows from 200 to 450 CFM (depending upon model) of fresh air and exhaust through the unit while maintaining superior indoor comfort and humidity levels. ln most cases this can be accomplished without increasing equipment sizing or operating costs. Heat transfer e{ficiency is up to 67% during summer and 75% during winter conditions. lntake and exhausted blowers have 3 independently selectable speeds. The ERV consists oi a unique "rotary energy recovery cassette" that provides effective sensible and latent heat transfer capabilities during summer and winter conditions. Various control schemes are addressed including limiting ventilatron during building occupancy only. The ERV is designed to be internally mounted behind the service door in the W**AA or W**LA model wall-mount units. lt can be built-in at the factory (W**A only) or field rnstalled as an option. WERVP-*3 and WERVP-"5 can be independently adjusted for intake and exhaust rates. The ERV's have exhaust gravity shut-off dampers and motorized air intake dampers for positive shut-off. Form No. 53523-418 Supersedes 53523-318Page 3of28 Cerlified FDD Product California Title 24, Part 6 HJW1O !{ww.energy,ca.g0v Energy Recovery ventilator wiring includes plug-in harnesses for easy vent installation and removal. Ventilation Options Ovenriew Ventilation 0ption Nomenclature Code Air lntake and Exhaust 0ptions lntake Hood Depths 0peration Notes Fresh Air Damper X Up to 25% of the rated unit airflow. No exhaust air. No Hood Damper opens when blower is on. Pins are used for blade position, Standard Vent Option. Normally used for positive room pressurization. Blank Off Plate No lntake or exhaust air.No Hood Uses insulated plates to block air openings normal- ly used for vent options. Provides optimum cabinet sealing. Motorized Fresh Air Damper M Up to 25% of the rated unit airflow intake. No ex- haust air. Spring return motor. No Hood On/Off operation. No intake air adjustment, Normally used for positive room pressurization. Energy Recovery Ventilator R lntake and exhaust blowers with 3 selectable speeds. 3 On/Off operation Offers energy savings by using energy recovery wheels. Glassroom Ventilator, Partial lntake Airflow C Spring return motor that closes on power loss. Air intake of up to 50% rated unit CFM. No Hood Solid state board with min. position and adjustable 0n/Off occupied airflow. 0ptional 0-10V input. Provides ventila- tion to occupied structures to meet fresh air require- ments. Economizer, Full lntake Airflow, 0utdoor Temperature Sensor Y Spring return motor that closes on power loss. Air intake of full rated unit CFM (Full flow). 7u JADE Controller with min. position blade setting and 0-10V CO2 sen- sor input. Econ- omizes based on outdoor temp. onlY. Takes advantage of cooler outdoor weather condi- tions to save ener- gy costs. Economizer, Full lntake Airflow, 0utdoor Temp. and Enthalpy Sensor Z Spring return motor that closes on power loss. Air intake of full rated unit CFM (Full flow). 7 JADE Controller with min. position blade setting and 0-10V CO2 sen- sor input. Econ- omizes based on outdoor temp. and humidity. Takes advantage of cooler outdoor weather conditions to save energy costs. Does not operate when humidity is h igh. Form No. 53523-418 Supersedes 53523-318Page 4o128 B Economizer Performance Data - WECOP lr1l18 Ventilation Delivery 5{X} 450 4m 350 3{}0 250 2ffi 150 100 5{t o -50 Elr-Uco .J IE .aJct, Etramper Fosition -Suppfy & Return Grilks -2O EhJctstatt .4{} Ductstatt ;-I .T {n .! Airflow amounts less than 700 CFM may not be achievable. llll24 Venti lation [lel ivery =ll-L' tro laG Et, 8[n 7W 6m 5{X} 4ffi 3{}0 200 lm o o 2 4 5 Damper Fmition I 10 12 -Supply & Retwn Griltss -_20 E[rct$tatt -4O nrct$tatt ,{lf -{if '€-4 G Airflow amounts less than 100 CFM may not be achievable. Form No. 53523{18 Supersedes S3523-318Page 5 of28 TII lL 1 :-l-#l- F*r Economizer Perforrnance Data - WECOP lfiI:l0 and Wil6 Ventilation Delivery 12m Imo 8{r} 600 4{tr HN T -'-T--i*I -r t =tLU Eo IE EI, o 2 4 6 Damper Fcition I 10 -supply & Return Griltss -20 tfuctstatt -4o EluErstErt Airflow amounfs less than 10O CFM may not be achievable. Form No. 53523-418 Supersedes 53523-318Page 60128 W42 and HI48 Ventilation tlelivery ELLLlco.E l! *tct 16m 1lr$0 12(I} 1000 sm 6m 400 2(m 0 o z 4 6 Elamper Fmition I 10 L2 -suFF*y & Retwn Griltss -20 Brctstart .4o Drrctstart ,{/ ///'=7 fitF Airflow amounts less than 100 CFM may not be achievable. It _l 0 12 f- I Economizer Perfonnance Data - WECOP tlll60 Ventilation Delivery E l! L.tco t! cl, 1&)0 1600 1l!00 12tX) l(m gm 6m ilffi ano 0 o 2 45 Damper Pcition I 10 -Supply & Regrn Griltss -.20 Dtrft$tatt -4O Duftstatt I Airflwv amounts less than 10O CFM may not be achievable. Form No. 53523-418 Supersedes 53523-318Page 7 of28 _-_-r_ 1 ---:-l Commercial Room Ventilator Performanoe Data - WCRVPS W18 and W24 Ventilation Delivery 500 450 4m 350 300 250 2m 150 100 50 o r l --r-- lJ-(J .9 s (u .l o 2 45 Damper Position 8 10 -Supply & Retum Grilles -.2O Duct Static .zlo Duct Static Airflow amounfs /ess than 100 CFM may not be achievable, Form No. 33523-418 Supersedes 53523-318Page I of 28 W3O and W36 Ventilatlon Delivery =lJ-U E .gg E o, 8m 7N 5m 5m 4m 3m 2m 1m o o 2 45 Damper Position 8 10 -Supply & Retum Grilles .2O Duct Static .4O Duct Static E -/ v l 1E j - Airflow amounfs /ess than 100 CFM may not be achievable. Commercial Room Ventilator Performance Data - WCRVPS W42 and W48 Ventilation Delivery =r!(J E .es c o, 1200 1mo 800 600 400 2m o -200 Damper Position Supply & Retum Grilles .2O Duct Static .40 Duct Static Airflow amounts less than 100 CFM may not be achievable. may not be achievable. Form No. 53523-418 Supersedes 53523-318Page 9 of28 120C 1mo 800 6m 4m 2@ o 4 j -supply & Retum Grilles .2O Duct Static .zl0 Duct Static W6O Ventilation Delivery =l!(J E .e s E(tt o 7 I 1046 Damper Position amounts _t_ l__. SUMMER COOLING PERFORMANCE (INDOOR DESIGN CONDITIONS 75'DB/52'WB) Ambient 0.D. VENTILATION RATE -- 250 CFM 62% EFFICIENCY VENTILATION RATE -. 225 CFM 63% EFFICIENCY VENTILATION RATE - 2OO CFM 63% EFFICIENCY DBI/WB F VLT VLS VLL HRT HRS HRL VLT VLL HRT HRS HRL VLT vLs VLL HRT HRS HRL 105 71925 8100 8100 8100 8100 8100 1 325 0 0 7394 5022 5022 5022 5022 5022 422 0 0 1O727 7247 7247 7247 7247 7247 344 0 0 1 675a 4591 4591 4591 4591 4591 2168 0 0 9540 6480 6480 6480 6480 6480 3060 0 0 6010 4042 4042 4082 4042 4042 L92a 0 0 100 80 75 70 65 60 17550 t1925 6863 6750 6150 6750 6750 675A 6750 6750 10800 5175 113 0 0 10881 7394 4255 4185 4185 4185 4185 4185 4185 4185 6696 3209 70 o o 15788 to727 6173 6072 607? 6072 6072 6072 6072 6072 97t6 4655 to1 0 0 9946 6758 3889 3426 3826 3426 3426 3826 3426 3426 6121 2933 64 0 0 i4040 9540 5490 5400 5400 5400 5400 5400 5400 5400 8640 4140 90 o 0 8845 6010 3458 3402 3402 3402 3402 3402 340? 3402 5443 2608 56 0 0 80 75 70 65 60 95 1 7550 t1925 6863 5400 5400 5400 5400 5400 5400 5400 12150 6525 1463 0 0 10881 7394 4255 3348 3348 3348 3348 3348 3348 3348 7533 4046 907 0 0 I 5788 1O727 61 73 4858 4858 10930 5870 1315 0 0 3060 3060 3060 3060 3060 6886 3698 429 0 0 14040 9540 5490 4320 4320 4320 4320 4320 4320 4320 9720 5220 1 170 0 0 8845 6010 3458 2722 2722 2722 2722 2722 2722 2722 6124 3289 737 0 0 90 80 75 70 65 60 I 7550 11925 6863 4050 4050 4050 4050 4050 40s0 4050 13500 7475 28t3 o 0 10881 7394 4255 2571 2511 251r 2511 2511 2511 2511 8370 4883 1744 0 0 I 5788 1o727 6173 3643 3643 3643 3643 3643 3643 3643 12145 7044 2530 0 0 9946 6758 3889 2295 2295 2295 2295 2295 2295 2295 7651 4463 i594 0 0 14040 9540 5490 3240 3240 3240 3240 3240 3240 3240 10800 5300 2250 0 0 8845 6010 3458 204t 2041 2041 2041 2041 204t 204t 6804 3969 L4l7 0 0 85 8o 75 70 65 60 I 7550 11925 6863 2700 2700 2700 2700 2700 2700 2700 14850 9225 4163 0 0 10881 7394 4255 7614 1674 1674 1674 1674 1674 1,674 9207 5720 2547 0 1 5788 107 27 6173 2429 2429 2429 2429 2429 2429 2429 13359 8298 3744 0 0 9946 6758 3889 1 530 1530 1530 1530 1530 1530 1530 8416 5228 2359 0 0 14040 9540 5490 2160 2160 2 160 2160 2160 2t60 2160 1 i880 7380 3300 0 0 8845 6010 3458 1361 1361 1361 1361 1361 1361 1361 7444 4649 2098 0 0 75 70 65 60 80 11925 6863 2363 1350 1350 1350 1350 1350 10575 5513 1013 0 7394 4255 1465 837 837 837 837 837 6557 3418 624 0 10727 6t13 2t25 1274 Lzl4 t214 1214 1214 95 13 4959 911 0 6754 3889 1339 765 765 765 765 765 5993 3124 547 0 9540 5490 1890 1080 1080 1080 1080 1080 8460 4410 810 0 6010 3458 i 190 680 680 680 680 680 5330 277A 510 0 75 70 65 60 6863 2363 0 0 0 0 6863 2363 0 4255 1465 0 0 0 0 4255 1465 0 6t73 2t25 0 0 0 0 6173 2125 0 6889 1339 0 0 0 0 3889 1339 0 5490 1890 0 0 0 0 5490 1890 0 3458 1 190 o 0 0 0 3458 1 190 o Ambient o.D. VENTILATION RATE 250 CFM 74o/" EFF. 225 CFM 75/" EFF. 200 cFM 75%EFF. DB/"F VLT HR VL VLT HR VL vLr HR VL 65 1350 999 351 t2L5 911 304 1080 a2l 259 60 2700 1998 702 2430 1823 608 2t60 t642 518 55 4050 2997 1053 3645 2734 911 3240 2462 778 50 5400 3996 7404 4860 3645 L2t5 4320 3283 1037 45 6750 4995 1 755 6075 4556 1 519 5400 4to4 1296 40 8100 5994 2106 7290 5468 1823 6480 4925 1 555 35 9450 6993 2457 8505 6379 2726 7560 5746 1814 30 10800 7992 2808 9720 7290 2430 8640 6566 2074 25 12150 8991 3159 10935 8201 2734 9720 73a7 2333 20 13500 9990 3510 12150 91 13 3038 10800 8208 2592 15 14850 10989 3861 13365 10024 3341 i 1880 9029 2851 16200 1 1988 4272 14580 10935 3645 72960 9850 31 10 1 7550 t2987 4563 15795 1 1846 3949 14040 10670 3370 0 18900 13986 4974 1 7010 1275a 4253 15120 1 1491 3629 -5 20250 14985 5265 t8225 13669 4556 16200 12372 3888 -10 21600 15984 5616 t9440 14580 4860 172AO 13133 4147 (INDOOR DESIGN CONDITIONS 70'F DB) LEGEND: VLT VLS VLL HRT HRS HRL Ventilation Load - Total Ventilation Load - Sensible Ventilation Load - Latent Heat Recovery - Total Heat Recovery - Sensible Heat Recovery - Latent Form No. 53523418 Supersedes 53523-318Page '10 of 28 Performance and Application Data- WERVP-*2 vLs 75 70 65 4858 4858 4858 4858 4858 9946 6758 3889 3060 3060 WERVP- * 2 Z-TonWinter Heating Performance 10 5 Performanc"e and Application Data- WERVP-*3 SUMMER COOLING PERFORMANCE (INDOOR DESIGN CONDITIONS 75"D8/62'WB) Ambient o.D. VENTILATION RATE.. 250 CFM 62% EFFICIENCY VENTILATION RATE.- 225 CFM 63'l" EFFICIENCY VENTILATION RATE - 2OO CFM 63% EFFICIENCY DBAVB F VLT vLs VLL HRT HRS HRL VLT vLs VLL HRT HRS HRL VLT VLS VLL HRT HRS HRL 75 70 65 105 19080 12960 12960 12960 t2960 12960 6120 0 0 !2020 8164 8164 8164 8164 8164 3855 0 0 1 5502 10530 10530 10530 10530 10530 4972 o 0 6739 5739 6739 I 1925 8100 8100 8100 8100 8100 3825 0 0 7751 5265 5265 5265 5265 5265 24A6 0 0 100 80 75 70 65 50 28080 19080 10980 10800 10800 10800 10800 10800 10800 10800 17240 8280 180 0 0 17690 12020 67t7 6804 6804 6804 6804 6804 6804 6804 10886 5?16 i13 0 0 22875 15502 a92l 4775 a775 8775 8775 8775 8775 a775 14040 6727 t46 0 0 14601 992r 5709 5616 5616 561 6 561 6 5616 5616 5616 8985 4305 93 0 0 17550 1r925 6862 6750 6750 6750 6750 6750 6750 6750 10800 5175 1.t2 o 0 11407 7751 4460 4387 4387 4387 4347 4387 4387 43A7 70t9 3363 73 0 0 95 80 75 70 65 50 28080 19080 10980 8640 8640 8640 8640 8640 8640 8640 19440 10440 2340 0 U 17690 12020 6917 5443 5443 5443 5443 5443 5443 5443 12247 6577 1474 0 0 15795 a482 1901 0 0 14601 9921 5709 4492 4492 4492 4492 4492 449? 4492 10108 5428 t2L6 0 0 1 7550 1 1925 6862 5400 5400 5400 5400 5400 5400 5400 i2150 6525 t462 0 0 i 1407 7751 4460 35 10 3510 35 10 3510 3510 35 10 3510 7497 4241 950 0 0 90 80 75 70 65 60 28080 19080 10980 6480 6480 6480 6480 6480 6480 6480 21600 12600 4500 o 0 17690 12020 6917 4082 4042 4042 4042 4042 4042 4042 13608 7938 2435 0 22415 I 5502 892I 5265 5265 5265 5265 5265 5255 5265 I 7550 t0237 3656 o o 14601 99?1 5709 3369 3369 3369 3369 3369 3369 3369 t1232 6552 2340 0 0 i 7550 1 1925 6462 4050 4050 4050 4050 4050 4050 4050 13500 7475 2412 0 0 t1407 7751 4460 2632 2632 2632 2632 2632 2632 2632 4774 51 18 1828 0 0 85 80 75 70 65 60 28080 19080 10980 4320 4320 4320 4320 4320 4320 4320 23760 14760 6660 0 0 i7690 t2020 69i7 2721 2721 2721 2721 2721 2721 2721 14968 9?98 4195 0 o 22815 1 5502 a9?1 3510 3510 3510 35 10 3510 3510 3510 19305 1t992 541 1 o 0 14601 9921 5709 2246 2246 2246 2246 2246 2246 2246 t2355 7675 3463 0 0 I 7550 1 192s 6462 2700 2700 2700 2700 2700 2700 2700 14850 9225 4162 U o 11407 7751 4460 1755 1755 1 755 1 755 1 755 I 755 1755 9652 5996 2705 0 0 75 70 65 60 EO 19080 10980 3780 2160 2160 2160 2160 2160 16920 aa20 t620 0 12020 69t7 2341 1360 1360 1360 1360 1360 10659 5556 1020 0 15502 a92l 3071 1 755 1755 1 755 1755 t755 13747 7766 13 16 0 9921 5709 1 965 1 123 1123 1123 i 123 1123 8798 4586 842 0 11925 6462 236? 1350 1350 1350 1350 1350 10575 5572 tot2 0 7751 4460 1535 877 877 a77 877 877 6473 3583 658 0 75 70 65 60 10980 3780 0 0 0 0 10980 3780 0 6917 2381 0 0 0 6917 2380 0 4921 307 1 0 0 0 0 8921 307r o 5709 1965 0 0 0 0 5709 1965 0 6A62 2362 0 0 0 0 6862 2362 0 4460 1 535 0 0 0 0 4460 1 535 o WERVP-3* 3-Ton Winter Heating Performance Ambient o.D. VENTILATION RATE 400 cFM 75%EFF. 32s CFM 76a/o EFF, 250 CFM 77"/" EFF. DB/"F VLT HR VL VLT HR VL VLT HR VL 65 2160 1620 540 1 755 1334 427 i350 1040 311 60 4320 3240 1080 3510 2664 442 2700 2079 621 55 6480 4860 5265 4001 1264 4050 31 19 932 50 8640 6480 2760 7020 5335 1685 5400 4158 1242 45 10800 8100 2700 4775 6669 2706 6750 5198 1 553 40 12960 9720 3240 10530 8003 2527 8100 6231 1863 35 i 5120 1 1340 3780 12245 9337 2948 9450 7277 2774 30 17280 t2960 4320 14040 10670 3370 10800 8316 2484 25 19440 14580 4860 1 5795 t2004 379L 12150 9355 2795 20 21600 t6200 5400 17550 13338 42L2 13500 10395 3105 15 23760 t7a20 19305 14672 4633 14850 1 1435 3416 10 25920 19440 6480 27060 16006 5054 16200 72474 3726 5 28080 21060 7020 22A15 1 7339 5476 17550 13514 4037 0 30240 22640 7560 24570 18673 5497 18900 14553 4347 -5 32400 24300 8100 26325 20007 6318 20250 15593 4658 10 34560 25920 8640 28080 27347 6739 21600 t6632 4968 (INDOOR DESIGN CONDITIONS 7O'F DB) LEGEND VLT VLS VLL HRT HRS HRL Ventilation Load - Total Ventilation Load - Sensible Ventilation Load - Latent Heat Recovery - Total Heat Recovery - Sensible Heat Recovery - Latent Form No- 53523.418 Supersedes 33523-318Page 11 of 28 9921 6739 6739 3LAz 0 0 228t5 15502 a92L 7020 7020 7020 7020 7020 7020 7020 t620 5940 SUMMER COOLING PERFORMANCE (INDOOR DES!GN CONDITIONS 75'D8/62'WB) Ambient o.D. VENTILATION RATE -. 4OOCFM 63% EFFICIENCY VENTILATION RATE -- 325 CFM 64% EFFICIENCY VENTILATION RATE - 250 CFM 65% EFFICIENCY DB/ WB F VLT VLS VLL HRT HRS HRL VLT vLs VLL HRT HRS HRL VLT vLs VLL HRT HRS HRL 75 70 65 6884 0 0 9411 94il 94ll 4475 0 0 573 0 0 I 8018 8018 8018 3786 0 0 9720 9720 9120 4590 0 0 9587 6512 6sl2 6512 6512 6512 3075 0 0 80 75 70 65 60 7891 t89t 1891 7897 7897 12635 6054 l3t 0 0 6682 6682 6682 6682 6682 10692 5123 1ll 0 0 8i00 8100 8100 8100 8100 5421 5427 5427 5421 5427 8683 4160 90 0 0 95 80 75 70 65 60 9720 9720 9120 9720 9120 6318 63 l8 6318 6318 63 l8 14215 7634 171 1 0 0 8100 8100 8100 8100 8100 5345 5345 5345 5345 5345 12028 6459 1447 0 0 6480 6480 6480 6480 6480 4341 4341 4341 4341 4341 9768 5246 I 175 0 0 90 80 75 70 65 60 7290 7290 7290 7290 7290 4738 4138 4738 4738 4738 15794 92i3 3290 0 0 6075 6075 6075 6075 6075 4009 4009 4009 4009 4009 13365 7796 2784 0 0 4860 4860 4660 4860 4860 3256 3256 3256 3256 3256 10854 6331 226t 0 0 85 80 75 70 55 60 4860 4860 4860 4860 4860 3159 3159 3159 3159 3159 t737 4 10793 4870 0 0 4050 4050 4050 4050 4050 2672 2672 2672 2672 2672 14701 9132 4120 0 0 3240 3240 3?40 3240 3240 2170 2170 2170 2t70 2t70 11939 t4t6 3346 0 0 75 70 65 60 80 2430 2430 2430 2430 1580 1580 1580 1580 t2312 6449 ll84 0 2025 2025 2025 2025 1336 I336 1336 1336 10469 5457 1002 0 1620 1620 1620 1620 9587 5517 1899 1085 1085 1085 1085 1085 8502 4432 E14 0 75 70 65 60 0 0 0 8029 2164 0 8029 2764 0 6793 2338 0 6793 2338 0 8235 283s 0 8235 2E35 0 5517 1899 0 5517 1899 0 WERVP-S" 5-Ton Winter Heating Performance Ambient o.D. VENTILATION RATE 4s0 cFM 80% EFF. 375 CFM 81% EFF. 300 cFM 82o/" EFF. D8/"F VLT HR VL vtT HR VL vtT HR VL 65 2430 7944 486 2025 1640 385 7620 7328 292 60 4850 3888 972 4050 32At 770 3240 2657 583 55 7290 5832 1458 6075 4921 1 154 4860 3985 875 50 9720 7776 1944 8100 6561 1 539 6480 53 14 1 166 45 12150 9720 10125 4201 1924 8100 6642 1458 40 14580 77664 2916 12150 9842 2309 9120 7970 7750 35 17010 13608 3402 14715 tt4a2 2693 1 1340 9299 204r 30 19440 1 5552 3888 16200 73722 3078 12960 1o627 2333 25 21870 77496 4374 18225 I4762 3463 14580 I 1956 zb24 20 24300 19440 4860 20250 16403 3848 16200 t3244 2916 15 26730 27384 5346 22275 18043 4232 17A20 t4672 3208 10 29760 23328 5432 24300 19683 4677 79440 1 5941 3499 5 31590 25272 63 18 26325 21323 5002 21060 L7269 3797 0 34020 6804 28350 22964 5387 22680 18598 4082 -5 36450 29t60 7290 30375 24604 577 I 24300 19926 4374 -10 38880 31104 7716 32400 26244 6156 25920 27254 4666 (INDOOR DESIGN CONDITIONS 7O'F DB) LEGEND: VLT VLS VLL HRT HRS HRL Ventilation Load - Total Ventilation Load - Sensible Ventilation Load - Latent Heat Recovery - Total Heat Recovery - Sensible Heat Recovery - Latent Form No. 53523418 Supersedes S3523-318Page 12o128 a Performance and Application Data- WERVP-*S 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 2430 27216 Single Circuit Dual Circuit O Minimum Circuit Ampacity @ Maximum Edemal Fuse or Ckt. Brcaker o Field Power Wire Size o Ground Wire Size Rated Volts & Phase No. Field Powel Circuits o Minimum Circuit Ampacity @ Maximum External Fuse or Ckt. B*r. o Field Power Wire Size o Ground Wire ckt. A ckt. B ckr. A ckt. B ckt. A ckt. B ckt. A ckt. B MODEL w18HA-A00, A0Z A04 230t204-1 16 37 20 40 t2 12 10 25 45 70 10 8 6 IO 10 8 42 25 45 25 8 10 10 w24HA-AO0, A0Z AO4 A08 230t204-1 1 I Lor2 ?L 42 63 l,\\I \I \I \I \\I I I \\l0\I \ 10BO6:130/:1tJ4-3 1 33 8 coz c06 w24HA-C00,460 3 1 1 9 18 15 20 L4 t2 l4 l2 w30HA-AO0, AOZ A05 A10 230t204-t I I lot2 24 76 35 50 80 8 8 4 10 10 8 50 50 30 8 10 10 10 w30HA-800, B0z 806 809 815 230t204-3 18 36 45 25 40 50 10 8 8 10 10 10 w30HA-C00, coz c06 c09o cl5 460-3 10 19 24 Z2 15 20 25 30 L4 t2 10 10 4 2 0 0 I 23ot204-t I t or or I 1 2 2 29 55 81 85 40 60 90 90 8 6 4 4 t0 10 8 8 55 55 26 60 60 30 60 6 6 10 6 10 10 10 10 A0z A05 A10 A15 W36HA.AOO, @ 230t204-3 23 41 50 52 30 45 50 60 10 8 8 6 10 10 10 10 w36HA-800, B0Z B06 809 o 815 460-3 11 20 )q 15 25 30 T4 10 10 10 t4 10 10 10 coz c06 c09 c15 w36HA-C00, o 6 6 10 10 10 10 w42HA-400, A0Z A04 A05 A10 A15@ 230t204-l 1 I I or or 1 2 1 2 30 51 56 a2 a2 45 60 60 90 90 8 6 6 4 4 10 10 10 I 8 30 32 q) q)45 45 60 60 I 8 W42HA.BOO, BOZ 806 809 @ 815 230t204-3 24 42 52 52 35 50 60 60 8 8 6 6 10 10 10 10 W42HA-C00, CoZ c06 c09 @ cI5 460-3 t2 2L 25 26 15 25 30 30 t4 10 10 10 L4 10 10 t0 A04 A05 A10 415 A?O @ @ w48HA-A00, 230t208-r 2 2 2 2 I 1 or or 0r or 35 56 61 87 87 110 50 60 70 90 90 125 8 6 6 3 2 10 10 8 a 8 6 35 35 35 58 52 5? 5? 50 50 50 60 60 60 60 8 8 I 6 10 6 6 6 10 10 10 10 10 10 10 10 2A 40 30 t0 10 w48HA-800, B0Z 806 809 @ 815 @ 818 230t204-3 I I I I 2 43 52 N/A 35 50 60 60 N/A 8 8 6 6 N/A 10 10 l0 10 N/A 33 460-3 l2 26 26 15 30 30 l4 10 10 14 10 10 w48HA-C00, CoZ c09 @ c15 10 6 6 6 10 10 10 10 10 10 10 10 w60HA-AOO, A0Z A05 410 @ A15 @ A20 230t204-t I Lor2 !or2lor2 !or2 47 73 99 99 rt2 60 90 110 110 725 a 4 2 l0 8 6 6 6 47 47 47 60 26 52 52 52 60 60 60 60 30 60 bU 60 a 8 8 6 10 w60HA-800, B0z 809 @ B15 @ 818 230t208-3 1 1 1 2 32 59 59 N/A 40 60 60 N/A 8 6 6 N/A 10 10 10 N/A 35 2A 40 30 8 10 10 20 35 35 8 I l2 10 10 w60HA-C00, coz c09o c15 460-3 15 29 29 Electrical Specifications - Standard Heat Pumps Factors when more than three (3) conductors are in a raceway. @ Maximum size of the time delay fuse or circuit breaker for protection of field wiring conductors. O Maximum KW that can operate with the heat pump on is 9KW. Full heat available during emergency heat mode. @ Maximum KW that can operate with the heat pump on is 1oKW. Full heat available during emergency heat mode. O Based on 75'C copper wire. All wiring must conform to the National Electrical Code and all local codes. Form No. 53523-418 Supersedes S3523-318 Page 13 of28 I 1 I 1 1 1 1 I 1 I I I I I 8 10 1 1 1 I 1 1 Circuit Dual O Minimum Circuit Ampacity @ Maximum Extemal Fuse or Ckt. Bteaker C9 Field Power Wirr Size o Ground Wire Size ckt. B ckt. A ckt. B ckt. A ckt. B ckt. A ckt. B Rated Volts & Phase No. Field Power Circuits o Minimum Circuit Ampacity Maximum Extemal Fuse or Ck. Brkr. U Field Power Wire Size o Ground Wire ckt. A W24HADAOO, AOZ A04 408 230/208-l I I Lot2 2t 42 62 30 45 70 10 8 6 10 10 a 42 45 8 10 10 10 w24HADB00, B0Z 806 230t208-3 15 33 l2 8 L2 10 w24HADC00, CoZ c06 460-3 I 1 1 1 9 l8 20 35 t5 20 14 t2 14 72 W3OHADAOO, AOZ A05 A10 230t204-1 1 1 lor2 25 51 77 35 60 80 8 6 4 10 10 8 51 26 60 30 6 10 10 10 W3OHADBOO, BOZ B06 B09 230t204-3 18 36 45 25 40 50 10 8 a 10 10 10 w30HADC00, CoZ c06 ^no 460-3 11 20 24 15,n ?5 14 lz 10 14 t2 10 w36HADA00, A0Z A05 A10 230t204-l 1 Ilor? 29 55 81 40 60 90 I 6 4 10 10 8 55 26 60 30 6 10 l0 10 W36HADBOO, BOZ 806 809 2301208-3 23 41 51 30 60 10 8 6 10 10 l0 w36HADC00, CoZ c06 c09 460-3 11 20 24 15 l4 10 10 L4 10 10 w42HADA00, A0Z A05 A10 230t204-1 1 1 lot2 31 83 45 60 90 8 6 4 10 l0 8 52 45 60 8 6 10 W42HADBOO, BOZ 806 B09 230t20a-3 26 44 35 50 60 8 8 6 t0 l0 10 coz c06 c09 w42HADC00, 460 3 15 25 30 L4 10 10 l4 l0 l0 W4SHADAOO, AOZ A05 410 2301208-1 I lot2 1ot 2 la 64 90 50 80 100 8 6 3 10I 8 38 38 26 az 50 60 30 60 8 8 l0 6 10 10 10 10 W4sHADBOO, BOZ 806 809 230t208-3 27 45 54 40 50 60 8 8 6 10 10 10 c0z c06 c09 w48HADC00, 460-3 13 22 27 15 30 l4 10 10 74 10 10 w60HADA00, A0Z A05 A10 230t204-l 1 or or 1 1 2 2 47 7a 99 60 90 110 a 4 3 10 a 6 47 47 26 52 60 60 30 8 I 10 6 10 10 10 10 BOZ 809 W6OHADBOO 230/204-3 1 I 33 60 40 60 8 6 10 10 coz c09 WSOHADCOO,460-3 1 1 l7 30 35 10 8 i0 i0 Electrical Specifications - Dehumidification Models Factors when more than three (3) conductors are in a raceway. @ Maximum size of the time delay luse or circuit breaker for protection oI field wiring conductors. @ Based on 75"C copper wire. All wiring must conform to the National Electrical Code and all local codes. Form No. 33523-418 Supersedes 53523-318Page 140128 MODEL 1 1 1 1 1 1 10 1 I I I 1 1 L2 21 26 I I I 1 1 1 a a W6OHA o WISHA W24HA w30HA / WssHA w42HA / W48HA Single Speed DryAVet Coil {ri*r, s*.a frVAAret Coit Low Speed DryAVet Coil High Speed DryAVet Coil Low Speed DryAVet Coil High Speed Medium Speed Low Speed DryArVet Coil DryflVet Coil DryAVet Coil ESP in HrO High Speed DryMet Coil Low Speed I Dry/Wet Coil 0.0 9601920 ,{+ssrr+oo 960/960 1840/1790 1655/1605 2095t7995 1910/1820 179511715 2040n950 1850/1760 1730/16550.1 920/860 ]+oo,rsss 935/945 1755t7700 1565/1530 1985/1900 t790n700 1665/1600o.2 a50ta25 630/610 4601790 Jzwtzso 925t905 1665/1615 1490/1455 ,f zaon r oo 895/880 1570/1515 1410/1370 1925/1850 1735/1630 1605/15400.3 7A5n55 5801550 79{}nA5 715/6aO 530/490 700t610 )vurots 840/810 7465/t4LO 1320n24O 1875/1800 t675t7570 1545/7475 0.5 610/565 455/390 (565/450 Jrowsao 765t735 1355/1280 1215/980 1A20n745 1615/1500 1475/1310 Indoor Blower Performance - CFM at 230 or 460 Volts 0.4 Above data is with 1'standard th 1" washable filter For optional 2' pleated filter - reduce ESP by .15 in. See installation instructions for maximum ESP information on various KW applications. (1) These electric heaters are available in 23O|2OBY units only. (2) These electric heaters are available in 480V units only. Speeds marked "bold" above are Factory Connected. At 480V (2)At 460V (2)At 240V (1)Ar 208V (1) Btuh Nominal KW KW 1-Ph Amps 3-Ph Amps Etuh KW 1-Ph Amps s-Ph Amps Btuh KW 3-Ph Amps Btuh KW 3-Ph Amps 4.0 4.0 76.7 i3,652 3.00 L4.4 10,239 5.0 5.0 20.4 17,055 3.75 i8.0 72,799 18;8406.0 6.0 74.4 20,478 4.50 12.5 15,359 6.O 7.2 20,474 6.9 8.0 8.0 55.5 27,304 6.00 24.8 20,478 23,038 9.0 10.8 30.7 77 a.2a 10.4 28,2609.0 9.0 27.7 30,7 t7 6.75 78.7 25,59810.0 10.0 4t.7 34,130 7.50 36.1 11.2s 54.1 37.2 38,396 15.O 18.0 5 1,195 13.80 17.3 47,0991s.0 15.0 62.5 36.1 s1, l9s 43.3 67,434 37.5 46,O76 18.0 2t.7 6!,434 1 6.56 20.8 56,5 1 918.0 r8.0 20.o 83.3 6A,260 15.00 72.t 51,19520.o Electric Heat Table----Refer to Electrical Specifications for Availability by Unit Model Heater Packages - Field Installed r Designed for adding Electric Heat to 0 . ETL US & Canada Listed . Circuit Breaker Standard on 230/208V Disconnect Standard on Models NOTE: Field installed heater packages are not approved for use with top supply opening models.* Not available for dehumidification models. Form No. 53523418 Supersedes 53523-318Page 15 ol 28 -A00 Models 230/208-r -BO0 Models 230t208-3 -CO0 Models 460-3 Air Conditioner Models Heater Model #KW Heater Model #KW Heater Model # Wl8HA EHWl8H.AO4 EHW18H.AO8 4 8 N/A 6 EHWH24B.CO6 6w24HAEHW2TH.AO4 EHW2TH.AO8 4 8 EHWH24.806B 5 l0 EHWH03.BO6B EHWH03-BO9B EHWA37.B 1 5B 6 9 15 EHWCo3A-C06 EHWCO3A-CO9 EHWHO3A.CI5 - 6 9 15 W3OHA EHWH3O.AO5B EHWH3O.AlOB EHWH36.405B EHWH36-AlOB EHWH36-A158 * 5 10 15 EHW36H-B06B EHWH03.BO9B EHW36H-8158 * 6 9 15 EHWCO3A.CO6 EHWCo3A-CO9 EHWHO3A.CI5 * 6 9 15 W36HA EHWHO5-B06B EHWHO5-B09B EHWHO5.B158 * 6 9 l5 EHW4TH-CO6 EHW4TH.CO9 EHW4TH-C15 " 6 9 15 W42HA EHWHO4.AO4B EHW4TH-AO5 EHW4TH-A1O EHW4TH-Al5 * 4 E 10 15 EHWH04-AO4B EHWH42.AO5B EHW4TH-A1O EHWH42-A158 - EHWHO4-A2OB " 4 5 10 15 20 EHWHO5-B06B EHWHO5.B09B EHWHOs.B15B * EHW4TH.Bl8B " 6 9 15 18 EHW4TH-CO9 EHW4TH.Cl5 * 9 15 EHWH04-AO5B EHW5TH-A1O EHWHO4.Al5B * EHWHO4-A2OB - 5 l0 15 20 EHWHO5-B09B EHWHOs.B15B " EHW4TH-818 - 9 15 18 EHW4TH-COg EHW4TH-C15 * 9 15 9AOt970 725t720 920t905 67o.t655 13.50 KW N/A W48HA W6OHA H .IEIII I Return Air I toerwar Cooling Capacity g 75'F Iq8o"F I ffid gr3 l,o",l EE 95'F HE 100"F 110'F ll5'F 120"F L25"F WI8HA 75t62 Total Cooling Sensible Cooling 18,300 14,400 17,400 l4,oo0 16,500 13,700 15,700 13,300 14,800 13,000 14,100 12,700 13,400 12,500 12,200 12,000 11,500 1 1 ,500 11,O00 1 1,000 80t67 Total Cooling Sensible Cooling 19,500 13,900 18,900 13,700 18,300 13,500 17,700 13,300 17,100 13,100 16,400 12,900 15 L2 800 800 15,200 12,600 14,600 12,400 13,900 12,200 13,300 12,000 Total Cooling -Q-*LAJ* 23,300 -14 ma 22,100 21,i00 l lmL 20,000 I1'4fu 18,900 18,000 a,uM_ 17,100 I 13,700\Y Y W24HA 75t62 Total Cooling Sensible Cooling 28,500 2L,700 26,500 20,600 24,600 19,600 22,900 18,700 21,500 18,000 20,200 17,300 19,000 16,800 18,OOO 16,300 17,1 00 16,000 16,400 15,800 15,700 15,600 Total Cooling Sensible Cooling 30,400 21,000 28,800 20,200 27,300 19,400 25,900 18,700 24,600 18,100 23,500 17,600 22,400 17,200 21,400 16,800 20,600 16,600 19,800 16,500 19,100 16,400 85172 Total Cooling Sensible Cooling 36.200 2 1,500 33,700 20,500 31,400 19,500 29,300 18,600 27,400 17,800 25,700 17,100 24,200 16,400 22,AOO 15,800 21,700 15,300 20,600 14,900 1 1 o 4, 700 500 W3OHA #t\-fil,SoNiikr Sensible Cooling \2A.60e 24,200 v&^8oo- 23,900 )9$800- 23,600 x+raA 23,200 x418o^ 22,900 -l$2ool 22,500 e,w 22,1O0 *+IOOJ 21,600 -2e?00sJ 21,100 *zodo8- 20,700 .]A$OB- 19,600 aot67 Total Cooling Sensible Cooling 31,600 23,400 31,400 23,400 3 1,100 23,300 30,600 23,200 30,000 23,100 29,300 22,900 28,500 22,600 27,500 22,300 26,400 21,900 25,200 21,600 23,900 2 1, 100 45fi2 Total Cooling Sensible Cooling 37,700 24,OOO 36,700 23,800 35,700 23,400 34,600 23,100 33,400 22,700 32,100 22,200 30,800 21 ,600 29,300 20,900 27,800 20,200 26,200 19,500 24,600 18,700 W36HA 75162 Total Cooling Sensible Cooling 36,100 28,500 34,500 27,700 33,000 26,900 31 ,500 26,700 30,000 25,500 28,600 24,800 27,200 24,200 25,800 23,600 24,500 23,100 23,200 22,600 21,900 21,900 80t67 Total Cooling Sensible Cooling 38,500 27,600 37,600 27,700 36,600 26,600 35,600 26,100 34,600 25,700 33,300 25,200 32,100 24,800 30,800 24,400 29,500 24,OOO 28,100 23,600 26 23 600 200 85t72 Total Cooling Sensible Cooling 45,900 28,300 44,000 27,500 42,LOO 26,700 40,200 26,000 38,200 25,200 36,400 24,400 34,600 23,700 32,800 22,900 31,000 22,rOO 29,200 21,300 27.400 20,600 W42HA 75t62 Total Cooling Sensible Cooling 42,700 34,700 40,900 33,700 38,900 32,700 37,100 31 ,800 35,300 31,000 33,600 30,200 31 ,900 29,500 30,300 28,800 28,600 28,100 27,700 27,tOO 25,500 25,500 aot67 Total Cooling Sensible Cooling 45,600 33,600 44,500 33,O00 43.200 32,400 41 ,900 31 ,800 40,500 31,300 39,100 30,700 37,600 30,200 36,100 29,700 34,400 29,200 32,800 24,700 3 i,o00 28,300 85t72 Total Cooling Sensible Cooling 54,300 34,400 52,000 33,500 49,600 32,600 47,300 31,600 45,000 30,700 42,800 29.700 40,600 28,800 38,400 27.900 36,200 26.900 34,100 25,900 31,900 25, i00 W48HA 7 5t62 Total Cooling Sensible Cooling 48,800 38,900 46,800 38,000 44,900 37,100 42,900 36,200 40,900 35,400 39,100 34,500 37,200 33,600 35,300 32,800 ,400 ,o00 33 32 31,600 31,200 29 29 00 00 7 ao/67 Total Cooling Sensible Cooling 52,100 37.700 51,000 37.200 49,800 36,700 48 500 36 200 47,000 35,700 45,500 35, iO0 43,900 34,500 42,tOO 33,900 40,200 33,300 38,300 32,600 36,200 31 ,900 85/72 Total Cooling Sensible Cooling 62,100 38,600 59,600 37,800 57 36 200 900 54,800 36,000 52,200 35,000 49,800 34,000 47,300 32,900 44,800 31,800 42,300 30,700 39 29 800 500 37 28 3 00 00 WSOHA 75t62 Total Cooling Sensible Cooling 60,800 46,400 58,100 45,200 55,500 44,100 52,900 43,000 50,500 42,OO0 48,200 40,900 46,000 39,900 43,900 38,900 41,800 37,900 39,900 36,900 37,800 35,900 80t67 Total Cooling Sensible Cooling 64,900 45,000 63 44 00 00 3 3 61,600 43,700 59 43 800 000 58,000 42,400 56,200 41,600 54 40 300 900 52 40 00 00 3 2 50,300 39,400 3 6 48 38 00 00 46,100 37,800 asn2 Total Cooling Sensible Cooling 77,300 46,100 74,OOO 45,000 70,700 43,900 67,500 42,700 64,400 41,600 6 1,500 40,300 58,600 39,000 55,600 37,700 52,900 36,300 50,200 34,900 47,400 33,500 of 10 Rated +10 Total BTUH Sensible BTUH 0.975 0.950 1.0 1.0 o2 05 I 1 O Below 65'F, unit requires a factory or field installed low ambient control. @ Outdoortemperatures shown are measured at the condenser section air inlet @ Return air temperature'F. W36HA - lO EER RH Heat Pump, 60 Hz 7.125 W42HA - 10 EER RH Heat Pump,6O Hz 7.9375 W48HA - lO EER RH Heat Pump, 60 Hz 8.187s 8.50 W60HA - l0 EER RH Heat Pump, 60 Hz Form No. 53523-418 Supersedes 53523-318Page 16 of 28 UNIT Std. Unit - Lbs. Dehum. Units - Lbs. W24HA - lO EER RH Heat Pump, 6O Hz 4.8125 \- l- -r^ I t 7.0625 7.7875 Unit Charge Rates- R4t0A 8.50 8.8125 105"F 12,800 L2,200 asn2 16,200 15,400 14,500 80t67 a" l^6?1^r 4.7 5 # 't 'a W18HA BTUH WATTS W3OHA WATTS w42HA BTUH WATTS COP 6,700 1,450 7,700 1,460 8,800 1,480 9,800 10,800 11,800 12,800 13,800 14,900 16,100 1 1,490 1,500 1,500 1,510 1,510 1,540 1,560 6,500 17,200 1,570 1,570 18,200 19,300 20,300 1,590 1,600 1,610 2,420 1.57 2,460 7.76 2,500 1.94 2,540 2.t2 2,560 2.27 2,570 2.41 2,590 ?.54 2,600 2.68 2,640 2.88 2,760 3.06 2,790 2,4103.10 3.23 2,A50 2,890 2,9303.37 3.50 3.63 13,500 16,100 18,800 21,500 23,400 24,700 26,700 27,500 32,100 36,700 38,500 40,100 42,800 45,500 48,100 3,070 3,120 3,170 3,220 3,230 3,220 3,200 3,190 3,340 3,490 3,550 3,580 3,630 3,680 3,730 7.29 7.52 7.74 1.96 2.73 2.25 2.39 2.53 2.82 3.09 3.10 3.29 3.46 3.63 3.7a 25,200 28,500 31,900 3s,200 37,800 39,800 41,900 43,900 49,200 54,400 56,500 58,500 61,900 65,200 68,500 4,420 4,530 4,640 4,760 4,780 4,730 4,690 4,650 4,990 5,340 5,480 5,550 5,660 5,770 5,880 1.68 1.85 2.O2 2.17 2.32 2.47 2.62 2.77 2.89 2.99 3.00 3.09 3.21 3.32 3.42 W6OHA BTUH WATTS coP * 70"F DB indoor return air at rated CFM includes defrost operation below 45". @ Outdoor temperatures shown are measured at the condenser section air inlet. Form No. 53523-418 Supersedes S3523-318Page 17 of 28 Heating Application Rating and Outdoor Temperature "F * @ MODEL 0' 5' 10" 15" 20' 25' 30' 35" 40" 45" 47' 50" 55" 50"F 65"F W36HA W48HA BTUH WATTS coP BTUH WATTS c0P 13,200 15,200 77,200 L9,200 21,100 22,800 24,500 26,200 28,700 31,100 32,000 33,200 35,200 37,200 39,200 2,600 2,640 2,670 2,710 2,730 2,750 2,760 2,7A0 2,840 2,910 2,930 2,950 2,990 3,020 3,060 7.49 1.69 1.89 2.O8 2.27 2.43 2.61 2.77 2.97 3.14 3.10 3.30 3.45 3.61 3.76 15,800 18,800 2i,800 24,800 27,500 29,800 32,200 34,600 38,500 42,500 44,000 45,800 48,800 51,800 54,800 3,710 3,740 3,760 3,790 3,800 3,790 3,790 3,780 3,860 3,930 3,960 3,980 4,010 4,030 4,060 t.25 1.48 t.70 1.92 2.73 2.3t 2.49 2.69 2.93 3.77 3.25 3.38 3.57 3.77 3.96 BTUH WATTS coP 9,500 11,000 12,500 14,000 15,300 16,500 17,600 18,800 20,800 22,800 23,400 24,500 26,000 27,500 29,000 1,960 1,990 2,020 2,060 2,090 2,720 2,150 2,190 2,220 2,250 2,260 2,280 2,310 2,350 2,380 1.43 1.62 t.az 2.00 2.15 2.29 2.40 2.52 2.75 2.97 3.00 3.15 3.30 3.43 3.58 W24HA MODELS LEFT SIDE RIGHT SIDE 20'W18HA, W24HA, W3OHA, W36HA 15' W42HA, W48HA, W6OHA 20'20' Glearances Required for Senrice Access and Adequate Condenser Inlet Airflow MODEL WISHA w24HA W3OHA W36HA W42HA W48HA WSOHA All dimensions are in inches. Dimensional drawings are not to scale. Built ln Rain Hood 4" Heater Eleclric C. Breaker/ Disconnect Access (Lockable) Hood for ECON models O Refer to the lnstallation Manual for more detailed information. Side Wall E o D .MW (Built Access Panel a T 9.00 9.00 1.88 10.00 T I R Mountino Bracketi Optional Electncal Top Rain Flashing Shipping Location S S 5.88 F Standard flush vent door for non- ERV/CRV Econ. {pdels CH 3" Low Enhance Entrance Drain FrontView Side View 0 Not used when WECOP* Economizers installed. Filter access is through the ECONWMT hood. Form No. 53523.418 Supersedes S3523-318Page 18 ol 28 e I Lu M N o SUPPLY AIR DUCT FIRST THREE FEETMODELS O CABINET W18HA, W24HA 0'0" W3OHA, W36HA u4'0' w42HA, W48HA, W60HA 7t4',0' SU PPLY RETURNWIDTH (w) DEPTH (D) HEIGHT (H)A B B E F G I J K L M N P u R S 33.300 17.t25 74.563 7.88 19.88 1 1.88 19.88 35.00 10.88 29.75 20.56 30.75 32.06 33.25 31.00 2.63 34.13 26.06 10.5s 4.19 12.O0 38.200 17.725 7 4.563 7.88 27.48 13.88 27.A8 40.00 i0.88 29.75 77.93 30.75 32.75 33.25 31.00 2.7 5 39.13 26.75 9.14 4.19 t2.oo 42.O75 22,432 44,475 9.88 29.88 15.88 29.88 43.88 13.56 31 .66 30.oo 32.68 26.94 34.69 32.43 3.37 43.00 23.88 10.00 L44 16.00 42.O75 22.432 93.000 9.88 29.88 i 5.88 29.48 43.88 13.56 37.00 30.00 40.81 35.06 42.41 40.56 3.37 43.00 31 .00 10.00 1.44 16.00 Dimensions of W18-60H Basic Unit forArchitectural & Installation Requirements (Nominal) A Filter Access Panel Air Outlet 1.250 Supply Air Opening lr-l Return Air Apening o Back View Mts-3796 Minimunr Clearances Required to Combustible Materials Ducted - Front OutletBard Bard Wl8HA Series Sound Data Matrix dBA 10 feet waPs5t.G Supply Ak Sllsnc.r waPRtt-x Rhrn & Slbncer waPRtt-x Rdm AL Sihnor wAPRl1-X R.tum Ak Sllancor wapRtt-x RCurn Ah Sllon@r 42.3 39.6 39.2 35.8 40.5 35.6 g7.x 3tL8 15.2 42.9 42.O 46.2 46.2 44.0 42.0 41.1 45.0 42.5 41.8 &.7 55.2 49.9 55.7 49.8 68.0 4A.7 42.1 48.3 39.5 43.6 49.3 41.7 l'cat Oltbn 50.3 42.0 50.2 39.7 50.6 43.8 11.7 5t.s 41.4 50.9 40.1 51.8 51.9 11.7 ilI I 5?0 ('tiu 5'0 r'[\t s?0 ( rlt570 ( Ir\t 510 ( I:\t 5?0 ( t'\t 5?o ( lnt E Bard W18HA Series Sound Data Matrix dBA 5r@t@ I bhgrl.d vrl.6 ..kd.d Fr SSIASA Sl !.6Gtm/r.n 2, Wor 52.rJ , I.bl. ! 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T.Dl.2 Trlpl. Mod."W.3 WAC SteDDurycytu: Vd&rh $.i. P.n hd 2!./.. Fr[ Ifld l7i. 'br$rdSudv.bm.l$rDB.rbkforrEinhEingq'@rorLIEDd@b:EQPftrqrur.3-Vi.tu!Asf.dP.dqB!..,omPXl.UfitilhdiprtrdbdhAISISI2.S, cl.rffiEmd.Oh.rMtum b.dtMld n&klof aSaB.. R6!lt! Rcfei.ftd wer€ n(odd ln ft &d Manuhtudng 6mp.ny,lm. 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RButu Rct€.emed w... Recod.d h tu &d Mandrduring Comp.ny, lft . $ud lab F.cility Mul Fl€H ABliadon 36dts May V.ry Wth darsrcom ksiF and Conrtrdlon MetbA 4lBl2ot6 Form No. 53523-418 Supersedes S3523-318Page 25of28 Bard Duct Fre Oirecl Dte.t Dk.cl mrcF5 Grillg Gdll.Grilk D!d Ducl Grili.Gille Gillle Gdtb 570 ('rM 570 ( r\t 570 ( rit 570 ( ts\r 570 ( l\t 570 ( lt\t 570 ( F\t s70 ( tsNt 56.0 53.5 /18.6 45.6 55.7 48.3 52.5 43.9 54.9 Otu.O10 67.1 46.756.7 I 55.2 ,.e E 55.8 45.6 Med lld 57.6 56.8 56.0 17.3 High HighHigh High High High HiEh High 56.4 43.6 ia.l 58,3 47.4 Eirr{l Ducted. Front Outlet Dk.d mrcF5 WICF5 utcF5 0lrecl Dh€t Crill.Grille Gdll.Dud Dud WAPS516 SupplyAlr Sllancar Gdll.Grill?Grille Gdtb waPRtl-x R.tum Ah 570 ( Fil 570 CFlt S70 ('FlU 570 ( F\I s70 ( r\t 570 ('r\t 570 ( F\t 570 ( Ftl 52.0 48.4 43.4 t9J J.Z 55.9 57.8 48.E 55.it 46.4 58.2 17.9 59.3 il8.9 High High High High Hagh High Hith Hlgh 48.8 49.1 Golor and Cabinet Options ai Standard Exterior Painted Steel Finishes Exterior cabinets of standard Bard HVAC products are constructed with 16, 18, or 20 gauge zinc coated steel that is cleaned, rinsed, sealed and dried prior to a polyurethane primer being applied, followed by a baked on textured enamel This coating system has been tested to 1000 hours exposure time per ASTM B 117-003 testing standards. Exterior cabinet screws and fasteners use a Magni 550 coating system. Parts coated to this specification are capable of withstanding neutral salt spray testing for a minimum of 1000 hours with no red rust per ASTM B i17-003 testing standards. 0ptional Aluminum Exterior Finish Aluminum exteriorfinish cabinets are available for most unit models. The exterior sides, door panels, and service access doors are of a stucco textured Aluminum 3003 H14 material with excellent corrosion resistance. Exterior cabinet screws and fasteners use a Magni 550 coating system. Parts coated to this specification are capable of withstanding neutral salt spray testing for a minimum of 1000 hours with no red rust per ASTM B 117-003 testing standards. 0ptional Stainless Steel Exterior Finish Exterior Stainless Steel finish cabinets are often selected for corrosion and chemical resistance. Higher grades of stain- less steel are often specified to meet the requirements of harsh environments. Units may not only be exposed to wind- blown dust, dirt, lint, and fibers but also may be exposed to corrosive agents. The Bard stainless steel grade enclosure and fasteners for years of operation in these conditions. Features - Sides, doors, grilles, back panels, and top are 316 grade stainless steel. - Base, condenser partition, and fan shroud are 304 grade stainless steel. - Stainless steel exterior cabinet screws, washers, nuts, and bolts are used. - Stainless steel outdoor motor mount and motor mount hardware. - Compressor mounting hardware is stainless steel and hex no-spin rivet nuts are used in the unit base. - Corrosion resistant coating is applied to fan blade. Form No. 53523418 Supersedes S3523-318Page 26of28 Coil and Cabinet Coating Options ! Evaporator and Condenser Goil Coating 0ptions All models use a standard aluminum fin copper hairpin evaporator and condenser coil. An additional corrosion resistant phenolic coating may be ordered for the evaporator coil, condenser coil, or both evaporator and condenser coils. Phe- nolic coated coils will withstand exposure to many corrosive atrnospheres with the exception of strong alkalis, strong oxidizers, wet bromine. and chlorine and flourine in concentrations greater than 100 ppm (part per million). Because the resistance is dependent upon the environment and unit application, contact Bard for job specific recommendations X 0ption- All models use a standard aluminum fin copper hairpin evaporator and condenser coil. The X option unit -ontains our standard non-coated evaporator and condenser coils which are acceptable for typical non-corrosive environments. I Option-The 1 option unit contains our stanciard phenolic coated evaporator coil and a non-coated condenser. Phe- nolic Coated evaporator coils are normally suggested for use in areas where indoor corrosive chemicals be present for additional coil protection. 2 0ption-The 2 option unit contains our resistance phenolic coated condenser coil and a standard non-coated evap- orator coil. Phenolic coated condenser coils are normally suggested for use in areas where outdoor corrosive chemi- cals or salt may be present for additional coil protection. 3 0ption- The 3 option unit contains our corrosion resistance phenolic coated evaporator coil and a corrosion re- sistance phenolic coated condenser coil. Coated evaporator and condenser coils are normally suggested for use in areas where indoor and outdoor corrosive chemicals or salt may be present for additional coil protection. Cabinet Coating 0ptions Bard offers a high performance, multipurpose, surface tolerant, two-component chemically-cured epoxy semi-gloss coating for wall mount units. Two options are available to offer additional equipment protection for applications such as chemical processing, fertilizer storage areas, power plants, petroleum refineries, pulp and paper mills, water and sewage treatment plants and mining operations. . 4Option-The 4 option unit contains our corrosion resistance phenolic coated evaporator and condenser coils and a coated unit condenser section. By coating the condenser section, the copper tubing, motor mount, sheet metal parts, filter/drier and compressor housing in the condenser area are protected with an epoxy semi-gloss coating. a 5 Option- The 5 option unit contains our corrosion resistance phenolic coated evaporator and condenser coils and unit is both internally and externally coated. By coating the interior and exterior of the unit, the copper tubing, motor mount, sheet metal parts, filter/drier, compressor housing, blower assembly, and any optional ventilation fea- tures are protected with an epoxy semi-gloss coating. This is the highest level of protection available. lt is required for applications where the internal and external features of the unit are exposed to a high level of salt or corrosive chemicals. . Adhesion: (ASTM D 4541) - Excellento Salt Spray Resistance: (ASTM B 117) - Excellent. Direct lmpact Resistance: (ASTM O 27gl) - Very Goodo Abrasion Resistance: (ASTM D 4060) - Excellent. HumidiU Resistance: (ASTM D 2247) - Excellent. Exterior Exposure: (45" South - Lt. lndustrial) - Very Good (Normal, expected loss of gloss for epoxy coatings)o Chemical Resistance*: (ASTM D 1308 - 24hr. contact) - Excellent. Resists splash and spillage of alkalis, salts, moisture, oils, greases, food stuffs, and detergents,50To sodium hydroxide, 28% ammonia,So/o trisodium phos- phate, 25Y" citric actd, 25"/o lactic acid, 107o ammonium hydroxide, sewage, 50% ethanol, gasoline, methanol, kerosene, naphtha, xylo!. *Al! results based on testing of system compromised of two coats of 4 mils (100 microns) DFT per coat. Form No. 53523.418 Supersedes S3523-318Page 27 ot28 a a a a ; Heat Pump Wall-Mount ltllodel Nomenclature MODEL NUMBER w J A T HT 10I KWO COLOR AND CABINET OPTIONS X - Beige (Standard) 1 - White 4 - Buckeye Gray 5 - Desert Brown 8 - Dark Bronze A - Aluminum E T CONTROL MODULES (See Chart Below) COIL AND UNIT COATING OPTIONS X - Standard 1 - Phenolic Coated Evaporator 2 - Phenolic Coated Condenser 3 - Phenolic Coated Evaporator and Condenser 4 - Coated ccils anC conde[ser section 5 - Coated coils, inside and outside of unit CAPACITY HEAT PUMP REVISION D = DEHUI\4lDlF|CAT|ON OPTION Models W24H, W30H, W36H, W42H, W48H & W60H only. lnsert D in place of dash (-). VOLTS & PHASE A - 230t20gt60n B - 230t20at60t3 c - 460t60t3 l8 - lVzfon 24 - 2fon 30 - ZVzfon 36-3Ton 42 - 3Vzfon 48-4Ton 60-5Ton VENTILATION OPTIONS Steel (See Page 26)FILTER OPTIONS - 1 inch Throwaway (Standard) - 'l inch 'rvashable 2 inch Pleated (MERV 8) 2 inch Pleated (l\4ERV11) - 2 inch Pleated (MERV 13) O ForOKWandcircuitbreakers(23O|2OAvolt)ortoggledisconnects(460volt) applications,insert0ZintheKWfieldofthemodel number, Barometric Fresh Air Dam Standard BFAD.5 Blank-Off Plate BOP.5 Motorized Fresh Air MPI WMFADP5 Commercial Ventilator - Partial Flow -No hood WCRVPS5-- O Economizer w/Pl O -7" hood WECOPTs.- O Economizer Entha I O -7'hood Venti lator 230 Volt O Venti lator 460 Volt O O lnsert color to match unit ('X'= Beige; '4'= Buckeye Gray; etc.) STD = Standard Equipment O The high & low pressure controls are auto reset. Operating circuit includes a lockout feature and is resettable from the wall thermostat. All low pressure controls use a timed bypass circuit to prevent nuisance tripping during low temperature start-up. @ The low ambient control includes an 8201-008 (fan relay) and permits cooling operation down to 0'F. @ PTCRstartkitcanbeusedwithall -Asinglephasemodels. lncreasesstartingtorque2-3x. Notusedfor-Bor-Cthreephasemodels. Donotuse if SK1l1 is used. @ Start capacitor and potential relay start kit can be used with all -A single phase models. lncreases starting torque 9x. Not used for -B or -C 3-phase models. Do not use if CMC-15 is used. @ The outdoor thermostat is adjustable from 0"F to 50"F. lt is suitable for use as a compressor cut-off thermostat. IIIOIE; Standard heat pump control board has a 5-minute compressor anti-short cycle timer. x P M N SUPPLY AIR OUTLET X - Front (Standard) WERVPA5-- WERVPC5.- o o o Bard Manufacturing Company, lnc Bryan, Ohio 43506 www. bardhvac.com Due to our continuous product improvement policy, all specifications subiect to change without notice. Form No. s3523 April 2018 Supersedes S3523-318Clidate Control SotuAoB x BFAD-2 X BFAD-3 x B BOP-2 B BOP-3 6 t\,1 WMFADP2 M WIVFADP3 M c WCRVPS2.* O C WCRVPS3.* O C wEcoPT2-. O WECOPT3-- O z wEcoPE2-. O Z WECOPE3-- O z R WERVPA2-* O R WERVPA3-- O R R WERVPC2-- O R WERVPC3-- O R Ventilation Options N/A N/ASTDSTDx STD STD a E cMH-27 cMH-22 CMH-23STDSTDaocMH-28 STD STD a a R cMH-29 cMH-24 STD STD a a S cMH-30 cMH-25 STD STD a a a T cMH-31 ct\ilH-26 STD STD a Field lnstalled cMc-15 0 cMC-l5 0 STD a Field lnstalled sK111 @ SKll I (DSTD Heat Pump Control Modules - AII ltllodels Field Installed Part Bard Page 28 ol 28 Models W42HA, W4EHA, W6OHA Description Field lnstalled Part No. Before purchasing this appliance, read important energy cost and efficiency information available from your retailer. w18HA, W24HA W3OHA, W36HA Factory lnstalled Code No. Field lnstalled Part No. Factory lnstalled Code No. Field lnstalled Part No. Factory lnstalled Code No- Low Pressure Control O High Pressure Control O Low Ambient Control and Relay O Start Kit o Start Kit @ Outdoor Thermostat 6 Factory lnstalled Code W18H, W24H W3OH, W36H W42H, W48H, W6OH