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[Page Too Large for OCR Processing] Oregon Heating' & Air Conditioning AUG 1 42012 • Microlnterconnect 0' 16655 SW 72 Ave, Tigard, Or : N Scope of Work Oregon Heating and Air Conditioning will perform the following scope of work: 1. Provide and install new rooftop HVAC 6 -ton unit on new factory curb. 2. Install 2 vents for "stretching machines ". (''- 3. Ducting and air - distribution as drawn. Equipment Schedule RTU1- Trane YSC072E3- 208/3/60. 39.2 MCA, 50 MOCP. 13 seer, 2400 cfm, 72,000 Btu cooling. 950 #. Provide economizer and smoke detector. Ventilation Requirements- based on 2010 OMSC table 403.3 Provided by existing 4 -ton. Mechanical General Notes: 1. Interlock RTU3 and RTU5 with single thermostat. RTU3 to operate as second stage cooling. Both fans to run constant during occupied. 2. All steel ducting will be 26 ga minimum galvanized. 3. Heating and cooling ducting to be designed to not exceed 0.5 wc positive (supply) and 0.5 wc negative (return). 4. Provide programmable thermostat. 5 degree deadband minimum. 7 day. Microprocessor. Set program for night energy savings. 5. Seal ducting with UL listed mastic or mastic tape. 6. Max leakage rate of OSA or exhaust dampers to be 4 cfm /sft @ 1.0 sp. 7. Insulate all supply and return duct min. R4 foilback. 8. Support duct every 8' max or within 2' of direction change with minimum 24ga strap or 12ga wire. 9. Install flex per manuf specs. 10. Provide 0 and M to building owner. CITY OF TIGARD Approved ) L IC „ [ Conditionally Approved [ ] See Letter to: Follow [ ] Attached Permit Number: G — 00 1 Adds L/ OO By: Date: , 14 C ;Approved plans shall be on job site. OFFICE COPY Page 1 of 1 Oregon Heating & A /C, Inc. Oregon Heating Ilk PHONE NUMBERS MAILING ADDRESS OPERATIONS CONTRACTOR LICENSE . ` Air co"dm "n' 503 - 691 -9699 PO Box 241 19300 SW 118`" Ave Oregon CCB 172126 . - 1 -800- Furnace 503 - 691 -8556 (Fax) Dundee, OR 97115 Tualatin, OR 97062 Washington OREGOHC900BN www.oregonheating.com r 16655 Southwest 72nd Avenue, Tigard, OR - 0oogle Maps Page 1 of 2 • 1 ju ,4,.. riviv+d -r Sit if eV - e t '1 screenTo see , all use the the d "Print hat " link next are to visible the on ma th i• • t r 5. ■ .* l '' {J `it., • . i V µs e J - t 5p.$� : 4 .' pfd• �'t t „ad " f .l '?�'` `i"' `- �f ,: xr .,. h 4 t. c ri �i ,ate *'s �c-,.. d "� 'rrr F ' .. - ! l i ar z '` '"�[` +. t, e f +F ' " r � � ** '� n ,. ii �. ' fin ; " r , ., , , , '�,. y . , f C � . � � � ..1'`'-'--,' `i ry� . , y , 4 i : ^'' a P s ! P Y ' k I. '�. yr _� r ' �'k .' °+�eZ• a r 9,. ' , ' r ^ 1 ' T �3 a fc: .a Y �p ( 1 � 1. f_ 1 i t ' : V T . 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RECEPTACLE W 8�6 ROTA i f 2) CORD DROPS i i 4) ROOM TEMPE[iATURE AND HUMIDITY TO - 5TRETCNIN � G UNIT A � 19 0 • ` BE MAINTAINEQ AS FOLLOWS: t I TEMP 28IC +/- f P ROVIDE EXHAUST T, ; 8 W m HUM f:, MAX >5O% PREFEREDj 'ROOF PENETRATION AND `� W p lb I i POER FOR TENANY FAN � IV rk 4 } ELEC CAL CONTRAC 70 CV i EACH UNIT i COORDINATE 1■ITH TENANT AND VERIFY _ 1.9 SCOPE OF WORK TO INSTALL NEW - • ' EQUIPMENT AS WELL AS ADJUSTING I f< `t' LOCATIONS Ft! EXISTING EQUIPMENT TO ACCOMMODATE WORK SHOWN 13' -0' __ _ HERE. RELOCTION OF EXISTING I ' ' EQUIPMENT AND POWER BY TENANT. , L -___ ' - - - - - J I CORD DROPS -- o �HI )-LFR CALENDERING x , I 1 400v SA 4) ui m :a I �- ` -� ' 400` 114 -Ti 1 �J L -1 L Y W d , CAENDER I i - --- - ___ - -_ - -- - 1:1: (30- - - �iCO -- Gf�t'tTROLLER- -- - . -- - - -_ - _� . ____. _ _._.. _ ......., -0.._ '- I ' L J J Q . TABLE 'n L _ _ I EXTRUSION PRESS 400V 8A ___ . I PRODUCTIO ,�---- 0 11031 � 1 Q 103 f : ` ��`TPREFORMER 1 ' x 0 I 1 , 4) 0 1 - - - -1 L- - - -J ii-' ;FEEDING S TEPS - - - -- 7 f 4 STAND R11 REFORM. - 1 -- - 1' ' _ 0 i - - I PREFORMS R 2 �- - = 400V SA - w ' LARA LABS 11041 I ( ------ g itATI 4N C., R O L- • M Ee 201 . - cc 2� STRUCTURAL CALCULATIONS FOR MICROINTERCONNECT 16655 SW 72nd AVE TIGARD, OREGON -- ROOF MECHANICAL UNIT -- 0 PRO,i. 1 N 8 6 7 '1 f OREG•N yti E. NOR \ \ EXPIRES: 12 / 31 / [ 1/1 Contents Details A - B DI - D2 Gravity Calculations G1 - G2 Lateral Calculations L1 - L2 Contact Person: John E Nordling, PE Enclosures El - E3 NORDLING Proj. No.: 12 -282 1115( MICROINTERCONNECT STRUCTURAL ROOF MECH UNIT ENGINEERS, LLC OREGON HEATING & AIR CONDITIONING 6775 SW 111th, Suite 200 Beaverton OR, 97008 Date: AUG 2012 By: JEN Sheet No.: COVER ILO- / 1 f L . I I �IZ C. -, A `((C , O bi Clt..-4414 0 Ua t. . �' +l _ ' 11'1 �J►�► • U `(s c - e 3 -0.-a A 41 k 3`_:6 ik+a- CI') — w► v+x...r[ 4/ Gv1R.3 i_9,3 o CLre v'CIPrc... cl) .6.-R- Argo r< R'lwwl'A%,; i ►.3{.vr.MAfRal4, I t] 41 \.10D :::a. L r3 t.JP — S 'Must& ew.3, © (4'.16(0 ‘tNIOrc1, vraV Cft3 .... rwtsi 044 E%t.N ego . , .. .... ... .. .. ...... .... ... \ ,NGINpFR /O 12,187 ' ' t t - • .. OR GON . j le Y 1 t f f� < T 1 .1►� A►.1tC.J�c.. 0,4 1 mo o ' ( / 5. �\ A T I EXPIRES: 12 / 31 / NORDLING Proj. No.: 12 -282 MICROINTERCONNECT t15( STRUCTURAL ROOF MECH UNIT E LLC OREGON HEATING & AIR CONDITIONING 6775 SW 111th. Suite 200 • Beaverton OR. 97008 Date: AUG 2012 By: JEN Sheet No.: 7) 1 . Alk)111kbi ra �a Mlip (4) STEEL BRACKETS W/ (4) "10 x 1/2' TEK SCREWS TO CURB 1 (4) "10 x 1/2' TEK SCREWS TO UNIT BASE RAIL —....---UNIT BASE RAIL \ / (4) "10 SCREWS U f -(4) "10 SCREWS \ j � BRACKET i i i I: l �� f ! 1 , t I 1 "12 WOOD SCREWS 6 12' o/c CURB FLASHING 1 ROOFING BY OTHERS LEVELING CURB (AS REQ'D) U L 1 '' Li E l r 1 1� . L I .-(E) GL PURLIN BEYOND H GL GIRDER ���D PROFF L J �\S ,GI NEER 8/O 12,187 a te r/ _ 44 _EGON i DETAIL , s : — Es F. NORO l EXPIRES: 12 / 31 / NORDLING Proj. No.: 12 -282 MICROINTERCONNECT STRUCTURAL ROOF MECH UNIT ENGINEERS, LLC OREGON HEATING & AIR CONDITIONING 6775 SW 111th, Suite 200 Beaverton OR, 9700B Date: AUG 2012 By: JEN Sheet No.: D2 / - .. - I I. I: 1 I I. I l .. l : . . e i :- :a .,w) . : to .: • : =. •••:••••••••• • I : .• • k. op pupa • , e",, ` , ,� : ... : : ... ... • I C[1/43t6bw1� uat� . >, r . . Fi c m-- z :1 :! :1: ,I I + .II it-Up `(s Zo1't e 3 - t- lo' 'r• 4` = tip• % 3t•-o" 1-Nt... (t) _ _.. mto wr v./ cvyut - t. 0 • • - ' W. -tiSC �14-40t°lw1.b* -: 15 , W4 Grctjri . CIL.:1 or ► P1/4' ..... �.... ,. � ti ;11, s 1'Lfr A 5.40t ¢pO C'i. ,,rssitw u0 - 5 Vim, -'ta V% - �"! v30 --1`..- F . - -- - - - -7 cu- t° C'd - ' at ' 6,.. • : . (i.,...,...3„bi„,_,.......:.. . ..... ..... ....... . .... . . . . . . . (__ c „ .0 . 0 r...1 • • 5, r t . . . . .. : .4,,,,,,k4___ kb K1 . --t. w... : . . - . TAA.,- 1 . • . . • . . _ - C 2 > Z,w.L 111 W NORDLING Pro,. No.: .12-282 STRUCTURAL MICROINTERCONNECT ROOF MECH UNIT ENGINEERS, LLC OREGON HEATING & AIR CONDITIONING 6775 SW I> i[n, Suite 200 •Beaverton OR, 97008 Date: AUG 2012 By: JEN Sheet No.: • I • Nordling Structural Engineers, LLC 6775 SW 111th #200 Beaverton, OR 97008 Date: 08108112 Page: MULTI - SPAN TIMBER BEAM DESIGN MICRO INTER CO NNE CT A -(TL) B- (LL +DL) B- IMECH) 6- (COMB) C -ITL) C -(TL) GENERAL DATA - 1 2 3 4 5 6 All Spans Simple Support ?? : YES Spans Length ft : 7.50 24.00 24.00 24.00 4.50 4.50 End Fixity: Pin:Pin Pin:Pin Pin:Pin Pin:Pin Pin:Pin Piri:Pin Beam Width in : 3.500 3.125 3.125 3.125 3.000 3.500 Beam Depth in : 7.25 18.00 18.00 18.00 5.50 5.50 CALCULATED VALUES -OK- -OK- -OK- -OK- -OK- -OK- F'b- Modified Allow. psi : 1345.5 2638.4 2638.4 2638.4 1345.5 1345.5 fb - Actual. psi : 756.8 1433.6 111.9 1505.6 301.2 258.2 F'v- Modified Allow. psi : 207.0 218.5 218.5 218.5 207.0 207.0 ft/ (actual) * 1.5 psi : 51.2 78.8 8.4 87.3 24.5 21.0 Moment @ Left k -in : 0.0 0.0 0.0 0.0 0.0 0.0 Moment @ Right k -in : 0.0 0.0 0.0 0.0 0.0 0.0 Max. Mom. @ Mid -Span k -in : 23.2 241.9 18.9 254.1 4.6 4.6 X -Dist ft : 3.75 12.00 5.12 11.68 2.25 2.25 Shears: Left k : 1.03 3.36 0.32 3.68 0.34 0.34 Right k : -1.03 -3.36 -0.08 -3.44 -0.34 -0.34 Reaction @ Left DL k : 0.28 0.96 0.00 0.96 0.11 0.11 LL k : 0.75 2.40 0.32 2.72 0.22 0.22 Total k : 1.03 3.36 0.32 3.68 0.34 0.34 Reaction @ Right DL k : 0.28 0.96 0.00 0.96 0.11 0.11 LL k : 0.75 2.40 0.08 2.48 0.22 0.22 Total k : 1.03 3.36 0.08 3.44 0.34 0.34 Max. Defl. @ Mid Span in : -0.110 -0.765 -0.044 -0.807 -0.021 -0.018 X -Dist ft : 3.75 12.00 10.40 12.00 2.25 2.25 DESIGN DATA Le: Unsupported Length ft : 0.00 0.00 0.00 0.00 0.00 0.00 Fb:Basic Allowable psi : 1170.0 2400.0 2400.0 2400.0 1170.0 1170.0 Fv:Basic Allowable psi : 180.0 190.0 190.0 190.0 180.0 180.0 Elastic Modulus ksi : 1600 1800 1800 1800 1600 1600 Load Duration Factor 1.15 1.15 1.15 1.15 1.15 1.15 APPLIED LOADS Use Live Load on This Span ? Yes Yes Yes Yes Yes Yes Uniform DL plf : 75.0 80.0 0.0 80.0 50.0 50.0 LL plf : 200.0 200.0 0.0 200.0 100.0 100.0 Point DL a : LL >I : 400.00 400.00 X -Dist. ft : 5.00 5.00 QUERY VALUES Location ft : 0.00 0.00 0.00 0.00 0.00 0.00 Shear N : 1.03 3.36 0.32 3.68 0.34 0.34 Moment k -in : 0.00 0.00 0.00 0.00 0.00 0.00 Deflection in : 0.000 0.000 0.000 0.000 0.000 0.000 GZ lid 1R? Irl 1Q514.QR I MI Rf AI r Rrnra W {Canny KWr1Rn 1isI - USGS Earthquake Hazards Program 2005 ASCE 7 Standard Location 45° 24' 0.02" N Ss and S1 = Mapped Spectral Acceleration Values 122° 45' 0.25" W 16655 SW 72nd Ave, Tigard, OR Ground Motion Ss 0.933 Si 0.335 Occupancy Category II Site Coefficients Fa 1.13 Site Class D Fv 1.73 Importance Factor 1.00 Height of Structure 20.0 fl SMS Fa * Ss 1.051 SMi Fv * Si 0.580 Design Category (SDC) D SDS (2/3) SMS 0.701 SDI (2/3) SMI 0.386 Air Side HVAC Eq = 0.278W + 0.2 SDS W ap 2.50 RP 6.00 W : Weight of Unit 0.4•a .S I z� Fp= P °S P- 1 +2. I•W R hJ z= 20.0ft ASD FP= 0.35 WP -> * 0.7 0.245 z = 24.0 f1 FP= 0.40 WP - >* 0.7 0.278 FP MIN = 0.3 SDS IP WP 0.210 WP- > * 0.7 0.147 FP MAX = 1.6 SDS IP WP = 1.12 WP - >* 0.7 0.785 NORDLING Proj. No.: 12 -282 MICROINTERCONNECT k STRUCTURAL ROOF MECH UNIT ENGINEERS, LLC OREGON HEATING & AIR CONDITIONING 6775 SW 111th, Suite 200 • Beaverton OR, 97008 Date: AUG 2012 By: JEN Sheet No.: L 1 p: v eQ ` 140 lbs a. . W: 1,000 lbs . * �" EG1 218 lbs �, V Height 3' -0" Weight 1,000 lbs Length 7 -6" G: 6.5 lbs Width 4' -6" Curb 14" VEQ = 0.278 * 1,000 lbs + 0.2 * 0.701 * 1,000 lbs = 278 lbs + 140 lbs T = 278 lbs * (14" + 36 "/2) / 54" +140 lbs/ 2 - 0.6* 1,0001bs / 2 = -65 lbs [ 0 Net Uplift ] V= 278 lbs (4) 'MN -PRC -HOLD' l Ga GALVANIZED STEEL BRACKET W/ (4) "10 x 1 /2' TEK SCREWS TO ROOF CURB 4 (4) "10 x 1 /2' TEK SCREWS TO UNIT BASE RAIL -ok- "12 *12' o/c SCREWS TO EXISTING CURB BELOW - NORDLING Proj. No.: 12 -282 MICROINTERCONNECT I n5 '01V STRUCTURAL ROOF MECH UNIT ENGINEERS, LLC OREGON HEATING & AIR CONDITIONING 6775 SW I11th, Suite 200 Beaverton OR, 97008 Date: AUG 2012 By: JEN Sheet No.: L2 • V ECD 40/1 140 lbs ` W: 1,000 lbs t /1 T / 1111111411114 4111111d v EQ 218 lbs kik• Height 3' -0" Weight 1,000 lbs Length 7-6" G: 65 lbs Width 4' -6" Curb 14" VEQ = 0.278 * 1,000 lbs +0.2 * 0.701 * 1,000 lbs = 278 lbs + 140 lbs T= 278 lbs * (14" + 36 "/2) / 54" + 140 lbs /2 - 0.6 * 1,000 lbs / 2 = -65 lbs [ 0 Net Uplift V= 278 lbs (4) 'MIN -PRC -POLED' I6 Ga GALVANIZED STEEL BRACKET W/ (4) "10 x 1 /2' TEK SCREWS TO ROOF CURB 4 (4) "10 x 1/2' TEK SCREWS TO UNIT BASE RAIL -ok- "12 6 12 o/c SCREWS TO EXISTING CURB BELOW - NORDLING Proj. No.: 12 -282 MICROINTERCONNECT STRUCTU ROOF MECH UNIT _ E LLC OREGON HEATING & AIR CONDITIONING 6775 SW 111th, Suite 200 • Beaverton OR, 97008 Date: AUG 2012 By: JEN Sheet No.: L2 :fJ ' : dt. INSTALLED ACCESSORIES NET WEIGHT DATA ACCESSORY WEIGHTS ECONOMIZER 36. MOTORIZED OUTSIDE AIR DAMPER i 0 O MANUAL OUTSIDE AIR DAMPER . ,_� BAROMETRIC RELIEF ���� OVERSIZED MOTOR a 'I� :`` BELT DRIVE MOTOR • �� W7490/ �� /r � ` 1 POWER EXHAUST THROUGHT THE BASE ELECTRICAL (FIOPS) . 5 0 lb ' A � UNIT MOUNTED CIRCUIT BREAKER (FIOPS) � � UNIT MOUNTED DISCONNECT (FIOPS) • POWERED CONVENIENCE OUTLET (FIOPS) J� 4� I HINGED DOORS (FIOPS) O O I HAIL GUARD • O r" I SMOKE DETECTOR. SUPPLY /RETURN I NOVAR CONTROL PACKAGED GAS I ELECTRICAL CORNER WEIGHT STAINLESS STEEL HEAT EXCHANGER I REHEAT , ROOF CURB I BASIC UNIT WEIGHTS CORNER WEIGHTS CENTER OF GRAVITIY SHIPPING ii�O 1 304014 © 219.010 (E) LENGHT (F)WIDTH 936.0 lb , 793.0 Ib 1 BO 146.0 lb O i 124.0 lb 41' 2Y NOTE • '.\, 1. CORNER WEIGHTSARECIVEN FOR INFORMATION ONLY. 2. TO ESTIMATE SHIPPING WEIGHT ADD 5 LBS TO NET WEIGHT. 3. BASIC UNIT WEIGHT DOES NG,T INCLUDE ACCESSORYiW EIGHT. TO OBTAIN TOTAL WEIGHT. ADD ACCESSORY NET, WEIGHT TO BASIC UNIT WEIGHT. 4. WEIGH TS . FOR OPTIONS NOT LISTED ARE >5 LBS o 1*,,,,,,,,,,. W" r ' T .,,,,../ ) _. ` � • ,,„,, . '''' 4 :.,:::;: , ,,:s.:....:..., -4._ . .,...... ......, k . .,-.• E ., ;-/ .::;7 � +Vi i, PACKAGED GAS / ELECTRICAL • RIGGING AND CENTER OF GRAVITY I I a . 1 • TOP PANEL • f EVAPORATOR • SECTION ACCESS PANEL CONDENSER FAN • CONDENSATE DRAIN (ALT) l/G 1 1 314' -14 NPT DIA. HOLE -- \` \` V`I��1J/ / ,! CONDENSER COIL • �\ e 1 43' 275 �� \\ \ \ \, NIT CONTROL WIRE 718' DIA. HOLE 47 7/81 SERVICE GAUGE PORT ACCESS 1 318' DIA. HOLE i�� NIT POWER WIRE 112' NPT GAS CONNECTION ONTROLAND COMPRESSOR ACCESS PANEL (BOMBH 8 120MBH) 314' NPT GAS CONNECTION ' (150MBH.200MBH B 250MBH) THROUGH THE BASE 27 543' CONOENSATE 11 /6. NOTES: 1. THRU -THE -BASE ELECTRICAL AND GAS IS NOT STANDARD ON ■I • f ALL UNITS. 2. VERIFY WEIGHT, CONNECTION.AND ALL DIMENSION WITH INSTALLER DOCUMENTS BEFORE INSTALLATION (i P �rI 33' 321/6' orillOf SUPPLY RETURN - X 17 12 1_35/8", PLAN VIEW UNIT DIMENSION DRAWING - - , -7---.. - _.. i RETURN 32l/1• 40743' • o HORIZONTAL • SUPPLY 23718' AIRFLOW III - 18 12 I o 9 SIB' Y 4 311' 1 5 5 /6' I 0 O _ - 191 /4' A 93.8' - 16311' 37/8' 41N'-- •• CONDENSATE 55/6'- w 75/8' 85 /6• - 53 111' PACKAGED GAS I ELECTRICAL DIMENSION DRAWING as (J)1,313 CLEARANCE FROM TOP OF UNIT 72' CLEARANCE 36' CLEARANCE 48' • /l Ui�.-- .��11� \ il RETURN DOWNFLOW CLEARANCE 38' HORIZONTAL CLEARANCE 18' CLEARANCE 38' PACKAGED GAS /ELECTRIC CLEARANCE ROOF OPENING I , I UNIT OUTLINE I I 46' 53 114' I I I I [-- L, 46' --1 . i 88 518' PACKAGED GAS /ELECTRIC DOW N FLOW TYPICAL ROOF OPENING €3 /1/1 C 2©IZ - c 0 '2 2 - MANE" Model Number YSC072E3RM * * *D00 *C * * *0 Customer : lotto O I K )I p Project : ' ` f v �/�,Y U�`'G Name : Oregon Heating 3 -10 Ton R410A PKGD Unitary Gas /Electric Rooftop General Unit function DX cooling, gas heat Unit efficiency Standard efficiency Airflow Convertible configuration Airflow Application Downflow Design Airflow 2400cfm Fresh air selection Econ -dry bulb 0- 100 w/ bar relief 3ph Tonnage 6 Ton Cooling Entering DB 80.0OF Cooling Entering WB 67.00F Ambient Temp 95.00F ' heating capeuty Mediu " eat 3ph .-in! EAT - 10.0UF Voltage 208- 230/60/3 Design ESP 0.5OOin H2O Major design sequence E - R -410A DX Cooling, Gas Heat 3 - 10 Ton Unit controls Microprocessor controls 3ph Through the base provisions T the gas & elect Po c to of, . . • TRANS" General Data Table 3. General data - 6-7% tons - standard efficiency 6 Tons 7Va Tons 71/2 Tons T /YSCO72E3,4,W T/YSC090E3,4,W T /YSC092E3,4,W Cooling Performance(a) Gross Cooling Capacity 75,000 I 89,000 94,000 EER(b) 11.2 I 11.2 11.2 Nominal cfm /ARI Rated cfm 2,400/2,100 3,000/2,400 3,000/2,625 ARI Net Cooling Capacity 71,200 83,000 89,000 IEER(C) 13.0 12.2 j 13.0 System Power (kW) 6.36 7.48 7.97 Compressor Number/Type 1 /Scroll 1 /Scroll 2 /Scroll Sound Outdoor Sound Rating (dB)(d) 89 89 91 Outdoor Coll - Type Lanced Lanced Lanced Configuration Full Face Full Face Intertwined Tube Size (in.) OD 0.3125 0.3125 0.3125 Face Area (sq. ft.) 17 17 17.5 Rows /FPI 3/16 3/16 3/16 Indoor Coil - Type Lanced Lanced Lanced Configuration Full Face Full Face Face -Split Tube Size (in.) 0.3125 0.3125 0.3125 Face Area (sq. ft.) 9.89 9.89 12.36 Rows /FPI 3/16 4/16 3/16 Refrigerant Control Thermal Expansion ValveThermal Expansion VaiveiThermal Expansion Valve Drain Connection Number /Size (in.) 13/4 NPT 13/4 NPT 13/4 NPT Outdoor Fan - Type Propeller Propeller Propeller Number Used /Diameter (in.) 1/26 1/26 1/26 Drive Type /No. Speeds Direct/1 Direct/1 Direct/1 cfm 6,037 6,037 6,610 Motor hp 0.7 0.7 0.75 Motor rpm 1,100 1,100 1,100 Indoor Fan - Type FC Centrifugal FC Centrifugal FC Centrifugal Number Used /Diameter (in.) /Width (in.) 1/12x12 1/12x12 1 /15x15 Drive Type /No. Speeds /rpm Belt/Variable /1,750 Belt/Variable /1,750 Belt /Varlable /1,750 Motor hp (Standard /Oversized) 1.0/2.0 1.0/3.0 1.0/3.0 Motor Frame Size (Standard /Oversized) 56/56 56/56 56/56 Filters( ") Type Furnished Throwaway Throwaway Throwaway Number Size Recommended (4) 16x25x2 (4) 16x25x2 (4) 20x25x2 Refrigerant Charge (fl Pounds of R -410A 10.5 11.8 6.9/6.2 continued on next page 28 RT- PRCO23 -EN . 0 TRINE' TOP PANEL EVAPORATOR SECTION ACCESS PANEL CONDENSER FAN --\\\ ' . ' CONDENSATE DRAIN (ALT) (rar...S6, 1 3/4' -14 NPT DIA HOLE � 7 i _ CONDENSER COIL i'■� 4114' �\ 27 5/8' - -■1/ 7 7,6' o NIT CONTROL WIRE 7/6' DIA HOLE a` v . . ERVICE GAUGE PORT ACCESS 1 318' DIA HOLE !; 0 NIT POWER WIRE 112' NPT GAS CONNECTION ONTROLAND COMPRESSOR ACCESS PANEL (EOMBH 8 120MBH) 314' NPT GAS CONNECTION (150MBH.2001ABH 8 250MBH) THROUGH THE BASE _ ---- 275s' CONDENSATE\ C 1 NOTES: 1 THRU -THE -BASE ELECTRICAL AND GAS IS NOT STANDARD ON t___:I • - r ALLUNITS 2. VERIFY WEIGHT, CONNECTION, AND ALL DIMENSION WITH INSTALLER DOCUMENTS BEFORE INSTALLATION I KW 33' 3E 1 � SUPPLY I RETUU RN 1 —1 I 4• L3586' PLAN VIEW UNIT DIMENSION DRAWING EURN 32114' 40786' { 0 LY I AIR FLOW 16 } O • 4 3M' 4 I B r 5¢. I Ir1 0 _ 191N' A 9 3/8' 183/4' 37A3' 41/4' --.• r•- r CONDENSATE 55E•— BSb' 7511' •• 53114' PACKAGED GAS !ELECTRICAL DIMENSION DRAWING Page. 2. • TRANE' ELECTRICAL /GENERAL DATA 'GENERAL 17)(4X6) HEATING PERFORMANCE Model. YSC072E Oversized Motor HEATING - GENERAL DATA UnitOperaang Volege 187 -253 MCA: N/A Medium Model: Unit Prim ery Voltage 208 MFS N/A Heating Heating M M odel : Medium Unit Secondary Voltage 230 MCB: N/A 120.000 • Unit Hertz B0 Heating Output (Btu): 97,200 Unit Phase: 3 No. Burners: 3 EER No Stages 1 Standard Motor Field Instated Oversized Motor Gas Inlet Pressure MCA: 36.9 MCA: N/A Natural Gas (Min/Mix): 4.5/14 MFS: 50.0 MIS: N/A LP (Min/Max) 10 0/14 0 MCB • 500 MCB' N/A Gas Pipe Connection Sae: 112' INDOOR MOTOR Sendard Motor Oversized Motor Field Installed Overszed Motor Number: 1 Number N/A Number N/A Horsepower 1.0 Horsepower N/A Horsepower' N/A Motor Speed (RPM): — Motor Speed (RPM): NIA Motor Speed (RPM): N/A Phase 3 Phase NIA Phase N/A Full Load Amps: 5 00 Full Load Amps: NIA Full Load Amps: NIA Locked RotorAmps 32 Locked RoturAmps. NIA Locked Rotor Amps N/A COMPRESSOR Circuit 112 OUTDOOR MOTOR Number 1 Number 1 Horsepower: 5.8 Horsepower 0.7 Phase: 3 Motor Speed (RRM): 1100 Rated Load Amps 22.4 Phase Locked Rotor Amps: 149.0 Full Load Amps: 3.85 Locked Rotor Amps 9 30 POWER EXHAUST ACCESSORY (3) FILTERS REFRIGERANT 12) (Field Instaled Power Exhaust) Type R -410 Phase: N/A Type Throwaway Horsepower N/A Furnished Yes Factory Charge Motor Speed (RPM). N/A Number 4 C fruit VI 105 lb Full Load Am ps: N/A Recommended 18'x2552' Ciruit 42 N/A Locked Rotor Amps: N/A NOTES: 1 Maximum (HACR) Circuit Breaker suing is for nstallabons in the Unied States only 2 Refrigerant charge is an approximate value For a m ore precise value, sea unit nameplate and service instructions 3 Value does not include Power Exhaust Accessory 4 Value includes oversized m obi' 5 Value does not include Power Exhaust Accessory 6 EER is rated at AHRI conditions and in accordance with DOE test procedures. • Page 5 . . • TRANE' Weights Table 168.Maximum unit & corner weights (Ibs) and center of gravity dimensions (in.) - cooling models Maximum Model Unit Weights(a) Corner Weights(b) Center of Gravity (in.) Tons Model No. Shipping Net A B C D Length Width 3 TSCO36E 555 481 157 122 95 107 31 19 4 TSC048E 586 511 167 129 101 114 31 19 5 TSC060E 636 561 183 142 111 125 31 19 6 TSC072E 815 720 231 187 135 167 40 22 71/2 TSC090E 834 739 235 196 140 168 40 22 7 TSC092E 992 849 354 147 252 96 42 22 8 TSC102E 1048 905 359 161 265 120 42 23 10 TSC120F 1058 960 320 218 233 189 40 24 3 THCO36E 614 544 163 144 111 125 33 19 4 THC048E 787 692 220 178 132 163 40 23 5 1HC060E 841 746 241 193 139 173 39 22 6 THC072E 915 818 252 224 161 181 42 22 71 THC092E 1421 1227 346 330 269 282 49 28 71 THC092F 1026 928 315 209 224 180 40 24 8 THC102E 1436 1242 360 337 268 287 48 28 10 THC120E 1446 1252 355 334 268 285 48 28 (a) Weights are approximate. (b)Corner weights are given for information only. CENTER OF GRAVITY LENGTH A _ 9 CEN OF GRAVITY WIDTH D C CENTER OF GRAVITY Table 169.Maximum unit & corner weights (Ibs) and center of gravity dimensions (in.) - gas /electric models Maximum Model Unit Weights(a) Corner Weights(b) Center of Gravity (in.) Tons Model No. Shipping Net A B C D Length Width 3 YSCO36E 607 532 165 137 95 134 31 19 . 4 YSC048E 638 563 175 145 101 142 31 19 5 YSC060E 688 613 190 158 110 155 31 19 6 YSC072E 936 793 304 146 219 124 41 23 7V2 YSC090E 916 821 256 222 159 183 41 22 7'h YSC092E 1042 899 366 160 265 108 42 22 continued on next page 218 RT- PRCO23 -EN 0 MANE Weights - Table 169.Maximum unit & corner weights (Ibs) and center of gravity dimensions (in.) - gas /electric models (continued) Maximum Model Unit Weights( *) Corner Welghts(b) Center of Gravity (In.) Tons Model No. Shipping Net A B C D Length Width 8 YSC102E 1096 953 371 173 277 132 42 23 10 YSC120F 1156 1058 345 242 258 213 41 23 3 YHCO36E 676 606 178 162 126 139 33 19 4 YHC048E 858 763 238 200 148 176 40 23 5 YHC060E 917 822 261 218 156 187 40 22 6 YHC072E 997 900 274 250 180 196 42 22 7 YHC092E 1528 1334 373 368 295 299 50 28 7 YHC092F 1124 1026 340 233 249 204 41 23 81 YHC102E 1553 1359 387 375 294 303 49 28 10 YHC120E 1563 1369 386 379 299 305 49 28 (a) Weights are approximate. (b) Corner weights are given for information only. Table 170.Factory installed options (flops) /accessory net weights (Ibs)la T /YSC072E- T/YSCO36E-060E T /YHC048E 102E T /YSC120F T /YHC102E- T/YHCO36E 060E T /YHC072E T /YHC092F 120E Net Weight Net Weight Net Weight Net Weight Net Weight Accessory 3 - 5 Tons 4 Tons 6 Tons 7 10 8 Barometric Relief 7 10 10 10 10 Belt Drive Option (3 phase only) 31 31 — — — Coil Guards 12 20 20 20 30 Economizer 26 36 36 36 36 Electric Heaters(c) 15 30 30 40 40 Hinged Doors 10 12 12 12 12 Manual Outside Air Damper 16 26 26 26 26 Motorized Outside Air Damper 20 30 30 30 30 Novar Control 8 8 8 8 8 Oversized Motor 5 8 8 — — Powered Convenience Outlet 38 38 38 38 50 Powered Exhaust 40 40 80 80 80 Reheat Coil 15 25 — — 53 Roof Curb 61 78 78 78 89 Smoke Detector, Supply 5 5 S 5 5 Smoke Detector, Return 7 7 7 7 7 • Stainless Steel Heat Exchanger(d) 4 6 6 6 6 Through the Base Electrical 8 13 13 13 13 Through the Base Gas 5 5 5 5 5 Unit Mounted Circuit Breaker 5 5 5 5 5 Unit Mounted Disconnect 5 5 5 5 5 (a) Weights for options not listed are <5 lbs. (b) Net weight should be added to unit weight when ordering factory- installed accessories. (c) Applicable to Cooling units only. (d) Applicable to Gas /Electric units only. RT -PR CO23 -E N 219 . ' 0 MAW INSTALLED ACCESSORIES NET WEIGHT DATA ACCESSORY I WEIGHTS - I ECONOMIZER 1 36.01b I MOTORIZED OUTSIDE AIR DAMPER (D, O MANUAL OUTSIDE AIR DAMPER kr „A ' 4 I BAROMETRIC RELIEF I • I OVERSIZED MOTOR I o a �- BELT DRIVE MOTOR ' ® ���rr /7:...°=%3)9/ , POWER EXHAUST I I THROUGHTTHEBASEELECTRICAL (FIOPS) S,plp I UNIT MOUNTED CIRCUIT BREAKER (FIOPS) - UNIT MOUNTED DISCONNECT (FlOPS) I POWERED CONVENIENCE OUTLET (FIOPS) I (% HINGED DOORS (HOPS) fB 0 HAIL GUARD SMOKE DETECTOR. SUPPLY (RETURN PACKAGED GAS / ELECTRICAL NOVAR CONTROL CORNER WEIGHT STAINLESS STEEL HEAT EXCHANGER REHEAT I ROOF CURB I BASIC UNIT WEIGHTS CORNER WEIGHTS ' CENTER OF GRAVITIY SHIPPING I NET AO II 304 0 lb I © 1 219 0 b I (E) LENGHT II(F)WIDTH 936,016 1 793.0 b O 140.0 lb DO 1 124.0 lb 41' 23' NOTE: i. CORNER WEIGHTS ARE GIVEN FOR INFORMATION ONLY. 2. TO ESTIMATE SHIPPING WEIGHT ADD 5 LBS TO NET WEIGHT. 3. BASIC UNIT WEIGHT DOES NOT INCLUDE ACCESSORY WEIGHT. TO OBTAIN TOTAL WEIGHT, ADD ACCESSORY NET WEIGHT TO BASIC UNIT WEIGHT 4. WEIGHTS FOR OPTIONS NOT LISTED ARE >5 LBS � 4 %l �,��1 \11, ., p 1 t . :\ , -.:.,„,_.% .,:. - .40 PACKAGED GAS / ELECTRICAL RIGGING AND CENTER OF GRAVITY Page 6 /11 EC 2- 0 1 2-001 1 -74 1 - COM check Software Version 3.9.0 Mecha Comp Certificate Oregon Energy Efficiency Specialty Code Section 1: Project Information Project Type: Alteration Project Title : Microinterconnect Construction Site: Owner /Agent: Designer /Contractor: Tigard, OR Section 2: General Information Building Location (for weather data): Tigard, Oregon Climate Zone: 4c Section 3: Mechanical Systems List Quantity System Type & Description 1 HVAC System 1 (Single Zone) : Cooling: 1 each - Rooftop Package Unit, Capacity = 72000 kBtu /h, Efficiency = 11.20 EER, Air - Cooled Condenser, Air Economizer Section 4: Requirements Checklist In the following requirements, the relevant code section reference is shown in []. ' +' denotes that more details exist in the specified code section. Checkboxes identify requirements that the applicant has not acknowledged as being met. Check marked requirements identify those the applicant acknowledges are met or excepted from compliance. 'Plans reference page /section' identifies where in the plans /specs the requirement can be verified as being satisfied. Requirements Specific To: HVAC System 1 : 1. [503.2.3 +] Equipment meets minimum efficiency: Rooftop Package Unit: 9.70 EER (9.8 IEER) ❑ 2. [503.2.6 +] Energy recovery ventilation systems. Individual fan systems that have both a design supply air capacity of 5,000 cfm or jvi greater and a minimum outside air supply of 70 percent or greater of the design supply air quantity have an energy recovery system. s a Exception(s): ❑ Where energy recovery systems are prohibited by the International Mechanical Code. ❑ Systems serving spaces that are not cooled and are heated to less than 60 °F. ❑ Where more than 60 percent of the outdoor heating energy is provided from site - recovered or site solar energy. ❑ Type 1 kitchen exhaust hoods. ❑ Cooling systems in climates with a 1- percent cooling design wet -bulb temperature less than 64 °F (18 °C). ❑ Systems requiring dehumidification that employ series -style energy recovery coils wrapped around the cooling coil when the evaporative coil is located upstream of the exhaust air stream. ❑ Systems exhausting toxic, flammable, paint exhaust, corrosive fumes, or dust. Li Laboratory fume hood systems th / at jpclude qualifying features. Plans reference page /section: ❑ 3. [503.2.12] Hot Gas Bypass Limitation. Cooling systems does not use hot gas bypass or other evaporator pressure control unless the equipment is designed with multiple step (or continuous) capacity modulation. J Plans reference page /section: 4. [503.3.1 +] Supply air economizers shall be provided on each cooling system and are capable of providing 100 - percent outdoor air, even if additional mechanical cooling is required to meet the cooling load of the building. Systems provide a means to relieve excess outdoor air during economizer operation to prevent overpressurizing the building. Project Title: Microinterconnect Report date: 07/28/12 Data filename: Untitled.cck Page 1 of 5 Exception(s): . LI Cooling equipment less than 54,000 Btu /hr total cooling capacity. Economizer cooling is not required for new cooling systems serving an existing dedicated computer server room, electronic equipment room or telecom switch room in existing buildings up to a total of 600,000 Btu/hr of new cooling equipment. l Economizer cooling is not required for new cooling systems serving a new dedicated computer server room, electronic equipment room or telecom switch room in existing buildings up to a total of 240,000 Btu /hr of new cooling equipment. Plans reference page /section: qk ( Generic Requirements: Must be met by all systems to which the requirement is applicable: 1. [503.2.1 +] Calculation of heating and cooling loads. Design loads are determined in accordance with the procedures described in the ASHRAE /ACCA Standard 183. Alternatively, design loads have been determined by an approved equivalent computation procedure. 2. [503.2.2 +] Equipment and system sizing. Heating and cooling equipment and systems capacity do not exceed the loads calculated in accordance with Section 503.2.1. Exception(s): ❑ Required standby equipment and systems provided with controls and devices that allow such systems or equipment to operate automatically only when the primary equipment is not operating. ❑ Multiple units of the same equipment type with combined capacities exceeding the design load and provided with controls that have the capability to sequence the operation of each unit based on load. Plans reference page /section: X3. [503.2.3 +] HVAC Equipment Performance Requirements. Reported efficiencies have been tested and rated in accordance with the applicable test procedure. The efficiency has been verified through certification under an approved certification program or, if no certification program exists, the equipment efficiency ratings are supported by data furnished by the manufacturer. 4. [503.2.4.1 +] Thermostatic Controls. The supply of heating and cooling energy to each zone is controlled by individual thermostatic controls that respond to temperature within the zone. 4 Plans reference page /section: 1 ❑ 5. [503.2.4.1.1] Heat pump supplementary heat. Heat pumps having supplementary electric resistance heat have controls that, except during defrost, prevent supplementary heat operation when the heat pump can meet the heating load. Plans reference page /section: 6. [503.2.4.2] Set point overlap restriction. Where used to control both heating and cooling, zone thermostatic controls provide a temperature range or deadband of at least 5 °F (2.8`C) within which the supply of heating and cooling energy to the zone is capable of being shut off or reduced to a minimum. Exception(s): ❑ Thermostats requiring manual change over between heating and cooling modes. Plans reference page /section: lia 7. [503.2.4.3] Optimum Start Controls. Each HVAC system has controls that vary the start-up time of the system to just meet the temperature set point at time of occupancy. Plans reference page /section: 1V1 1 tif 8. [503.2.4.4 +] Off-hour controls. Each zone is provided with thermostatic setback controls that are controlled by either an automatic time clock or programmable control system. Exception(s): U Zones that will be operated continuously. ❑ Zones with a full HVAC load demand not exceeding 6,800 Btu/h (2 kW) and having a readily accessible manual shutoff switch. Plans reference page /section: WI. 9. [503.2.4.5 +] Shutoff damper controls. Both outdoor air supply and exhaust are equipped with not less than Class I motorized dampers. / Exception(s): O Gravity dampers shall be permitted for outside air intake or exhaust airflows of 300 cfm or less. Plans reference page /section: kkk, 1 ❑ 10. [503.2.4.6 +] Freeze Protection and Snow melt system controls. Freeze protection systems, such as heat tracing of outdoor piping and heat exchangers, including self - regulating heat tracing, include automatic controls capable of shutting off the systems when outdoor air temperatures meet code criteria. Plans reference page /section: / - Project Title: Microinterconnect Report date: 07/28/12 Data filename: Untitled.cck Page 2 of 5 ❑ 11. [503.2.4.7 +] Zone Isolation Controls. A system serving multiple occupancies or floors in the same building is independently zoned and equipped with isolation devices. Plans reference page /section: A( X 12. [503.2.4.8] Separate air distribution systems. Zones with special process temperature requirements and /or humidity requirements are served by separate air distribution systems from those serving zones requiring only comfort conditions; or shall include supplementary control provisions so that the primary systems may be specifically controlled for comfort purposes only. Exception(s): . ❑ [503.2.4.8 +] Zones requiring only comfort heating or comfort cooling that are served by a system primarily used for process temperature and humidity control. I6,. Plans reference page /section: Il • ❑ 13. [503.2.4.9.1] Humidity control. Where a humidity control device exists it is set to prevent the use of fossil fuel or electricity to produce relative humidity in excess of 30 percent. Where a humidity control device is used for dehumidification, it is set to prevent the use of fossil fuel or electricity to reduce relative humidity below 60 percent. Exception(s): ❑ Hospitals, process needs, archives, museums, critical equipment, and other non - comfort situations with specific humidity requirements outside this range. AA / Plans reference page /section: /V ❑ 14. [503.2.4.9.2) Humidity control. Where a humidity control device exists it is set to maintain a deadband of at least 10% relative humidity where no active humidification or dehumidification takes place. Exception(s): ❑ Heating for dehumidification is provided with heat recovery or heat pumping and the mechanical cooling system efficiency is 10 percent higher than required in section �5 HVAC equipment performance requirements. )ir Plans reference page /section: ]"1►/ F' 5. [503.2.5] Ventilation. Ventilation, either natural or mechanical, is provided in accordance with Chapter 4 of the International Mechanical Code. Where mechanical ventilation is provided, the system has the capability to reduce the outdoor air supply to the minimum required by Chapter 4 of the International Mechanical Code. Plans reference page /section: VII 1 ❑ 16. [503.2.5.1 +] Demand controlled ventilation (DCV). DCV is required for spaces larger than 500 ft2 for simple systems and spaces larger than 150 ft2 for multiple zone systems. Exception(s): ❑ Systems with energy recovery complying with Section 503.2.6 ❑ Spaces less than 750 ft2 (69.7 m2) where an occupancy sensor turns the fan off, closes the ventilation damper, or closes the zone damper when the space is unoccupied. Plans reference page /section: ! v Li 17. [503.2.5.2 +] Kitchen hoods. Kitchen makeup is provided as required by the Oregon Mechanical Specialty Code. Exception(s): ❑ Where hoods are used to exhaust ventilation air that would otherwise be exhausted by other fan systems. I❑ Kitchen exhaust systems that include exhaust air energy recovery complying with section 503.2.6. Plans reference page /section: f" ❑ 18. [503.2.5.3 +] Enclosed parking garage ventilation controls. In Group S -2, enclosed parking garages used for storing or handling automobiles employs automatic carbon monooxi a sensing devices. Plans reference page/section: /" - y 19. [503.2.7 +] Duct and plenum insulation and sealing. All supply and return air ducts and plenums are insulated with the specified insulation. When located within a building envelope assembly, the duct or plenum is separated from the building exterior or unconditioned or exempt spaces by a minimum of R -8 insulation. All ducts, air handlers and filter boxes are sealed. Joints and seams comply with Section 603.9 of the International Mechanical Code. Exception(s): ❑ When located within equipment. . 0 When the design temperature difference between the interior and exterior of the duct or plenum does not exceed 15 °F (8 °C). 20. [503.2.7.1.1 +] Low - pressure duct systems. All longitudinal and transverse joints, seams and connections of low- pressure supply and return ducts are securely fastened and sealed with welds, gaskets, mastics (adhesives), mastic -plus- embedded - fabric systems or tapes installed in accordance with the manufacturer's installation instructions. Exception(s): - -- — — Project Title: Microinterconnect Report date: 07/28/12 Data filename: Untitled.cck Page 3 of 5 D Continuously welded and locking-type longitudinal joints and seams on ducts operating at static pressures less than 2 inches w.g. pressure classification. , . Plans reference page/section: IAA 1 a 21. [503.2.7.1.2+] Medium-pressure duct systems. All ducts and plenums designed to operate medium-pressure are insulated and sealed in accordance with Section 503.2.7. Pressure classifications specific to the duct system are clearly indicated on the construction documents. Plans reference page/section: /4") u 22. [503.2.7.1.3 +] High-pressure duct systems. Ducts designed to operate at high-pressure are insulated and sealed in accordance with Section 503.2.7. In addition, ducts and ple ums are leak-tested in accordance with the SMACNA HVAC Air Duct Leakage Test Manual. • Plans reference page/section: 23. [503.2.9.3 +] Manuals. The construction documents require that an operating and maintenance manual be provided to the building owner by the mechanical contractor. See long description for specifications. Plans reference page/section: kl D 24. [503.2.10+1 Air System Design and Control. Each HVAD system having a total fan system motor nameplate hp exceeding 5 hp meets the provisions of Sections 503.2.10.1 through 503.2.10.2. Plans reference page/section: M D 25. [503.2.10.1 +1 Allowable fan floor horsepower. Each HVAC system at fan system design conditions does not exceed the allowable fan system motor nameplate hp (Option 1) or fan system bhp (Option 2) as shown and calulated in requirement details. Exception(s): Ei Hospital and laboratory systems that utilize flow control devices on exhaust and/or return to maintain space pressure relationships necessary for occupant health and safety or environmental control shall be permitted to use variable volume fan power limitation. Es Individual exhaust fans with motor nameplate horsepower of 1 hp or less. Plans reference page/section: 4141 Li 26. [503.2.10.2 +] Motor nameplate horsepower. For each fan, the selected fan motor is no larger than the first available motor size greater than the brake horsepower (bhp). Exception(s): L1 For fans less than 6 bhp, where the first available motor larger than the brake horsepower has a nameplate rating within 50 percent of the bhp, selection of the next larger nameplate motor size is allowed. U For fans 6 bhp and larger, where the first available motor larger than the bhp has a nameplate rating within 30 percent of the bhp, selection of the next larger nameplate motor size is allowed. Plans reference page/section: i+ u 27. [503.2.10.3.1] Large Volume Fan Systems. Fan systems over 8,000 (7 m3/s) cfm without direct expansion cooling coils that serve single zones reduce airflow based on space thermostat heating and cooling demand. A two-speed motor or variable frequency drive reduces airflow to a maximum 60 percent of peak airflow or minimum ventilation air requirement as required by Chapter 4 of the International Mechanical Code, whichever is greater. Exception(s): 1:1 Systems where the function of the supply air is for purposes other than temperature control, such as maintaining specific humidity levels or supplying an exhaust system. Plans reference page/section: tVP D 28. [503.2.10.3.2+] All air-conditioning equipment and air-handling units with direct expansion cooling and a cooling capacity at ARI conditions greater than or equal to 110,000 Btu/h that serve single zones have their supply fan operation controlled according to code specific requirements. Exception(s): D Systems where the function of the supply air is for purposes other than temperature control, such as maintaining specific humidity levels or supplying an exhaust system. Plans reference page/section: 14> D 29. [503.2.10.4] Series fan-powered terminal unit fan motors. Fan motors for series fan-powered terminal units are . electronically-commutated motors and have a minimum motor efficiency of 70 percent when rated in accordance with NEMA Standard MG 1-2006 at full load rating conditions. Plans reference page/section: /4 c3 30. [503.2.12] Hot Gas Bypass Limitation. For cooling systems > 240 kBtu/h, maximum hot gas bypass capacity is no more than 25% of total cooling capacity. Project Title: Microinterconnect Report date: 07/28/12 Data filename: Untitled.cck Page 4 of 5 Plans reference page /section: !" Section 5: Compliance Statement Compliance Statement: The proposed mechanical alteration project represented in this document is consistent with the building plans, specifications and other calculations submitted with this permit application. The proposed mechanical alteration project has been designed to meet the Oregon Energy Efficiency Specialty Code, Chapter 8, requirements 'n CeMcheck Version 3.9.0 and to comply with the mandatory requirements in the Requirements Checklist. • AC- a 1/4 LAI) tM. (1F-- I 2 1'L Name - Title Sig • . ure Dat Section 6: Post Construction Compliance Statement HVAC record drawings of the actual installation, system capacities, calibration information, and performance data for each equipment provided to the owner. HVAC O &M documents for all mechanical equipment and system provided to the owner by the mechanical contractor. Written HVAC balancing and operations report provided to the owner. The above post construction requirements have been completed. 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C ThermalCeramics - -, ►,- • FireMaster' FastWrap' XL . r.... Datasheet Code US: 7 -14 -236 MSDS Code US: 406 © 2009 Morgan Thermal Ceramics, a business within the Morgan Ceramics Division of The Morgan Crucible Company plc Product Features <c'4," • Thin and Lightweight at 1 -1/2" (38mm) thick, tcy ', -. - , ' 6 pcf (96 kg /m density ,t A` `?�'• • Contours easily to complex duct designs • • Grease duct installation UL Listed with butt joints at all a`�z^ 41 ;. , ' • , ; - .. , seams on both layers . +; M '" ' • Fully foil encapsulated for fast and clean installation `' }�'r • Contains 2192 °F (1200 °C) rated fibers •— v �, • GreenGuard Microbial Resistance Listing • Good sound absorption • Compliant to IMC, NFPA 96, UMC, CMC S$f� y 2. Applications ��, Q` ' �o • 1 and 2 hour enclosure and firestop system for Vliff l� kitchen exhaust ducts • Zero clearance to combustibles for kitchen exhaust ducts • 1 and 2 hour enclosure and firestop system for Grease Duct Enclosure System hazardous exhaust ducts, pressurization ducts, Air Ventilation Duct Enclosure System clothes dryer exhaust ducts, trash and linen chutes, and other fire rated HVAC ducts Product Data & Installation Guide • 1 hour electrical circuit integrity protection 1. Product Description • Engineered and tested solutions for fire protection of FireMaster FastWrap XL is a flexible blanket composed of structural steel and storage vessels per ASTM E119, high temperature fibers classified for applications to ISO 834, and UL1709 2192 °F (1200 °C) and fully encapsulated in a durable glass 3. Specifications - Division 23 07 00 (or 15080) fiber reinforced foil facing for easy handling and CSI Spec and AutoCAD available online, installation. FastWrap XL is UL and ULC Listed for 1 and 2 www.arcat.com /sd /clients /thermcer.html. hour fire resistive enclosure protection, zero clearance for FireMaster FastWrap XL is a flexible high temperature kitchen exhaust ducts, electrical circuit protection, and as a insulation rated to 2192 F (1200C) that is fully component in UL firestop designs for fire resistance rated encapsulated in FSP facing. The duct enclosure floors, ceilings, and walls. The core fibers in FastWrap XL system shall be listed by UL per ASTM E 2336 and ISO are manufactured using Morgan Thermal Ceramics 6944 for 1 -, 2- and 3 -hour rating and zero clearance to patented Superwool" fiber which is an alkaline -earth combustibles, and tested per ASTM E84 for a silicate wool with low biopersistence and therefore flame /smoke rating less than 25/50. Insulation shall increased safety for installers. FastWrap XL is under UL's have a nominal thickness of 1 -1/2 inches (38 mm) and Follow -Up Service Program to ensure the consistent density of 6 lbs/ft (96 kg /m Insulation shall have a quality essential to this life- safety application. R -Value of 7.3 at 75 F. Installation shall be in strict accordance to manufacturers published installation instructions, UL Listings, and shop drawings. e l ENVIRONMENTAL FireMaster FastDoor XL shall be used for duct access CLAIMS where specified or as required by code. VALIDATION • Commonly refereed to test method CA Section 01350 is CDPH Standard Method for the Testing and Evaluation of Volatile Organic Chemical Emissions from Indoor Sources Using Environmental Chambers Version 1.1, Feb 2010 www.morganthermalceramics.cotn 05 -2011 Page 1 of 8 14 Morgan 4 3 4� C ThermalCeramics - ,�►..- FireMaster'` FastWrap® XL quilay 4. Physical Characteristics 6. Listings /Building Code Reports Product Unit Size Units/ Wt./ Listed Uses Agency Listing Layers Ctn. Ctn. Grease Duct Enclosure per UL G18 FastWrap XL Roll 1 -1/2" x 24" x 25' 1 37.5 lbs. ASTM E2336 and AC101 (2006, 2 2009, 2012 IMC, NFPA 96, ICC -ES ESR 2213 FastWrap XL Roll 1 -1/2" x 48" x 25' 1 75 lbs. UMC, CMC) Grease Duct Insulation per ULC 5. Performance Specifications Grease Duct Insulation Test ULC FRD 4, 7 2 Protocol Reference Standard Standard No. Performance Grease Duct Insulation OPL TC /BI 120 -01 1 Grease Duct Enclosure (2003 IMC) System ASTM E2336 Pass Through Penetration FireStop UL Section 16.1 - System per ASTM E814, UL ULC See Figure 2 1 or 2 Non - Combustibility ASTM E136 Pass 1479 Section 16.2 -Fire Resistance UL HNLJ.V1, 19, (wall) ASTM E119 Pass 1- or 2 -hour Ventilation Duct 29 1 Enclosure per ISO 6944 -1985 FRD 3, 5, 6, Section 16.3 - Durability Test ASTM C518 Pass ULC 18 Section 16.4 - Internal Fire ASTM E2336 Pass 3 -hour Ventilation Duct Test Enclosure per ISO 6944 -1985 UL HNLJ.V2 2 Section 16.5 - Fire Engulfment ASTM Electrical Circuit Protective (duct) E814/E119 Pass System UL FHIT.5 2 ULC Grease Duct Test Protocol Pass 7. Storage Grease Duct Clearances UL 1978 Pass FastWrap XL must be stored in a dry warehouse • Air Ventilation Duct Enclosure ISO 6944 Pass environment on pallets. Pallets should not be stacked. Surface Burning Characteristics ASTM E84 <25/50 8. Installation Thermal Resistance ASTM C518 7.3 per layer FastWrap XL shall be installed by a qualified contractor in (R -value @ 75 °F) ASTM C1338 ULE Validated accordance with manufacturer's instructions and laboratory Mold Growth design listings. ASTM D6329 GreenGuard Materials and Equipment Low VOCs CA Standard ULE Validated • FastWrap XL blanket 01350 • Aluminum foil tape • Glass filament reinforced tape (optional) - Carbon steel or stainless steel banding material, minimum 1/2" (13mm) wide, minimum 0.015" (0.4mm) thick, with steel banding clips • Hand banding tensioner and crimping tool • Minimum 12 gage (3mm) steel insulation pins; steel speed clips, minimum 1 -1/2" (38mm) square or 1 -1/2" (38mm) diameter, or equivalent sized cup -head pins; • Capacitor discharge stud gun • Morgan Thermal Ceramics FastDoor XL • An approved firestop sealant www.morganthermalceramics.com 05:2011 Page 2 of 8 U Morgan ThermalCeramics - -� ►� FireMaster' FastWrap XL General and collar method. The banding is placed around the Cut edges of the blanket shall be taped with aluminum foil blanket and tightened to firmly hold the FastWrap XL in tape to prevent exposed edges of the insulation absorbing place against the duct, but not cause any cutting or grease and moisture in the event of a compromised grease damage to the blanket. duct joint or condensation. Overlaps and /or tightly butted 2) Pinning - Pinning on all sides of the duct may be used joints are used to block heat transfer in the event of duct as an alternative to banding. For ducts wider than 24" deformation resulting from thermal expansion. Filament (610mm) pinning is required on the bottom of horizontal tape is suggested to hold the blanket in place until steel runs, or on one side of vertical runs (in addition to steel banding or pinning is installed to permanently secure the banding). When applicable, 12 Gage (0.4mm) steel blanket. pins are installed on 12" (305mm) centers along the A. Installation on Grease Duct per ASTM E2336 (Figure 1) width of the duct and 10-1/2" (270mm) centers along the length of the duct. Pins that extend beyond the System requires two layers of insulation applied directly to outer blanket layer shall be turned down or the the duct with tight butt joints at all seams on both layers. excessive length cut off to prevent sharp edges. Shoot The first layer of insulation is cut to a length sufficient to through pins (cup head pins) may be used in wrap around the duct and provide a tight butt joint where conjunction with steel banding to prevent blanket sag. the blanket ends meet. Adjacent blankets on the first layer are butted tightly together with longitudinal seams offset E. Access Doors minimum 6" (150mm). The second layer of insulation is 1) FastDoorTM XL (Figure 3) - FastDoor XL is a UL Listed, installed in the same method as the first layer, with seams liquid tight duct cover panel supplied complete with a between layers offset a minimum of 6" (150mm). Banding single layer insulation cover per UL Listing HNKT G18. and /or pinning per Section D is used to permanently The FastDoor XL is installed per included installation secure the insulation to the duct. instructions. No field welding is required. B. Installation on HVAC Duct per ISO 6944 or Grease Duct 2) Field Fabricated Access Doors - Each access door assembly has four threaded rods 1/4 inch (6mm per UL1978 (Figure 1) Y (6mm) in System requires one layer of insulation applied directly to diameter and 5" (127mm) in length, with one welded to the duct with 3" (75mm) overlaps at all seams. The each corner of the door opening. Hollow steel tubes, insulation is cut to a length sufficient to wrap around the 4-1/2" (114mm) long are installed outside the access duct and provide a 3" (75mm) overlap where the blanket cover plate and over the threaded rods. Four 12 gage ends meet. Adjacent blankets are installed to provide a (3mm) and 4 -1/2" (114mm) long steel insulation pins are minimum overlap of 3" (75mm). Banding and /or pinning welded to the access cover plate to allow for installation per Section 0 is used to permanently secure the insulation of the three layers of FastWrap XL. One layer of to the duct. FastWrap XL is cut to approximately the same size as the access panel, and impaled over the insulation pins C. 2 & 3 Sided Wrap Installation (Figure 4) on the panel. A second layer of FastWrap XL is cut so When space does not allow for a complete wrap applied to as to overlap the first layer a minimum of 1 -1/2" (38mm). the duct on all four sides, the FastWrap XL is approved for 2 It is essential that the first and second layer fit tightly or 3 sided installations with mechanical attachment to a against the surrounding wrap with no through openings. rated concrete or CMU assembly. (See Figure 4 for The third and outside layer should be cut to overlap the installation details.) second insulation layer by a minimum of 1 -1 /2" (38mm). D. Mechanical Attachment Methods Minimum 1 -1/2" (38mm) round or square insulation clips 1) Banding (Figure 1) Minimum 1/2" (13mm) wide are installed on the insulation pins to secure the three carbon steel or stainless steel banding, 0.015" (0.4mm) layers of insulation to the access cover plate. All cut thick, is placed around the entire perimeter of the edges of the insulation shall be taped with minimum 3" insulated duct on maximum 10 -1/2" (270mm) centers (75mm) wide aluminum foil tape. Wing nuts and and 1-1/2" (38mm) from each blanket edge or 1-1/2" washers are installed on the four threaded rods, and (38mm) from each collar edge when using the butt joint tightened against the hollow steel tubes to seal the www.morganthermalceramics.com 05:2011 Page 3 of 8 V Morgan . r . C ThermalCeramics FireMaster® FastWrap® XL access cover plate to the duct. supports meeting the requirements of the Table below F. Through Penetration Firestop System (Figure 2) - When the duct penetrates a fire rated assembly an Hanger Cross Section Max, Perimeter, in Trapeze Support (or equiva- approved fire stop system must be employed. Figure 2 (mm) lent Yield Strength), in (mm) provides a complete list of UL / ULC firestop design 1 in x 16 gage strap 100 (2540) listings which can be found in the Certifications Directory (zs mm x 1.s gage strap 14 in (6 mm) threaded 1;4 (38) x1:4(38) x 316 (5) at www.ul.com for US systems and www.ulc.ca for rod 50 (1270) angle Canadian systems. Prior to installing any firestop system in (10 mm) threaded 1% (38) x 1A (38) x 346 (5) 38 the surfaces of all openings and penetrating items must rod 150 (3810) angle be clean and dry. The FastWrap XL core blanket (or 14 in (12.7 mm) threaded 2 (51) x 2 (51) x 14 (6) mineral wool where allowed by the firestop design listing) rod 218 (0) angle must be compressed into the annular space. The packing material must be recessed a minimum depth 9. Maintenance and Repair from the surface of the concrete or gypsum assembly. No maintenance is required when installed in accordance The recessed opening must be filled with a minimum with Morgan Thermal Ceramics (MTC) installation thickness of an approved firestop sealant. The packing instructions. If damage is limited to the foil facing, material type and compression, minimum recess aluminum foil tape can be used to repair the foil facing. If (typically 1/4" (6mm)), and approved firestop sealant and an area of blanket is found to be damaged the following thickness (typically 1/4" (6mm)) shall be as specified in procedure must be incorporated. If the damaged area is an approved UL / ULC firestop design listing. When there larger than 8" (203mm) x 8" (203mm) the entire wrap is not sufficient annular space around the duct to run the section must be removed and replaced according to MTC FastWrap XL enclosure system continuous through the installation instructions. If the damaged area is small (less fire rated assembly, the enclosure may than 8" (203mm) x 8" (203mm)), the damaged area must terminate above and below the floor /ceiling assembly or be cut away and replaced with a new section 1" (25mm) on either side of a wall assembly as shown in Figure 2. larger in length and width than the cut out, such that the When this method is used, the FastWrap XL must be new section can be compressed tightly into the cut out mechanically attached on either side of the fire rated area. All cut edges of the new section must be taped and assembly using one of the attachment methods sealed with aluminum foil tape. The new section must be described in Section D, spaced a maximum of 1 -1/2" held in place with either pinning or banding per MTC (38mm) from the fire rated assembly. installation instructions. G. Support Hanger Systems 10. Limitations 1) Grease ducts: Trapeze support hangers shall be Morgan Thermal Ceramics FireMaster FastWrap XL shall spaced on maximum 60 in. (1500 mm) centers. Hanger be installed in accordance with these installation rods or straps shall be anchored with steel drop in or instructions and appropriate laboratory design listings. The wedge expansion type masonry anchors. No integrity of FastWrap XL systems is limited to the quality of additional protection is required for hangers and the installation. supports meeting the requirements of the Table below. Hanger Cross Maximum Trapeze Support (or equivalent * For personal protective equipment recommendations, please see MSDS. Section Perimeter, in (mm) Yield Strength), in (mm) Thermal Ceramics, FireMaster, and FastWrap are trademarks of 38 in (10 mm) 148 (3759) 2 (51) x 2 (51) x 18 (3) in angle Morgan Crucible Company Plc. FireMaster products are manufactured by threaded rod Morgan Thermal Ceramics and are distributed by authorized distributors. 2) HVAC ducts: Trapeze support hangers shall be spaced on maximum 60 in. (1500 mm) centers. Hanger rods or straps shall be anchored with steel drop in or wedge ex- - pansion type masonry anchors. No additional protection is required for hangers and wwwmorganthermalceramics.com 05:2011 Page 4 of 8 11 Morgan -eta) C ThermalCeramics A►, FireMaster' FastWrap-':'-,.. L' gel 2 -Hour and Zero Clearance Grease and HVAC Duct Enclosure System 0 1 0 0 0 pl,,....4,". -0 0),,, , . 1 * I 4/P 0 4 111 Olt ' s. , . , , , \ . , N \ % -..,,,,., 1 4 41 ) tL ,T ;(N 11 11111; 1 ) 0 1 * .2'r': , CY 0 11'2 a9 a eo xxwcxxxv i(/lf /)( /X /N/K/ KA(/X/K/X/K/YIN/Y /. Butt Joint / Butt Joint Typic.0 TWO LAYER INSTALLATION OPTIONS (Grease Duct Der ASTM E2336) 5. 155 7 75 0 NEW O © 0 O J 5 I 117 3 A 0 1 1rr . A yr 38) © Mk yr r381 _lWi 4Y XK r.Vil \ivaroacmoraK �� vii11mma..www _ zr (533) Tv I 0 I 71' (533) TVP I Telescope Wrap Option Butt Joint Option Checkerboard Wrap Option SINGLE LAYER INSTALLATION OPTIONS (HVAC Duct or Grease Duct Der UL19781 FIGURE 1 1 Two Layers of FireMaster FastWrap XL for ASTM E2336 Grease Duct Enclosures One Layer of FireMaster FastWrap XL for Air Ventilation Duct Enclosures 2 Steel banding minimum 1/2" (13) wide by 0.015" (0.4) thick. 3 Tight butt joints 4 Min. 3" (75) overlap on perimeter and between adjacent blankets 5 Optional 6" FireMaster FastWrap XL collar 6 Hangers - size dependent weight of assembly (see datasheet Section G) 7 Trapeze Supports - size dependent on weight of assembly (see datasheet Section G, 8 Steel Rectangular or Round Duct (gage and construction dependent on duct type) www.morganthermalceramics.com 05.2011 Page 5 of 8 11 Morgan C ThermalCeramics _,�►� • FireMaster' FastWrap XL - - Through Penetration Firestop Systems mit 0 °© 0 ' Iii 2 MEMOM 1■ 0 ■ _ fi`r�.-r 11 0 EOM rlillai lt1 �, 0 __. 1 % l; i 11111- 0 Fastwrap XL continuous through rated wall assembly Fastwrap XL continuous through rated floor /ceiling assembly ©© © © 41�. 0 0 411 IPA min ll 111 901 0 1,1 0 0 Fastwrap XL terminated on both sides of the Fastwrap XL terminated at the top and bottom rated wall assembly surface of the floor /ceiling assembly Firestop Designs FIGURE 2 Per ASTM E814 / UL 1479 UL Listings ULC Listings 1 Rated Floor /ceiling or wall assembly C - AJ - 1562 C - AJ - 7004 FRD 3 2 Duct C - AJ - 7012 C - AJ - 7014 FRD 4 3 Two Layers of FireMaster FastWrap XL for Grease Duct Enclosures C - AJ - 7019 C - AJ - 7021 FRD 5 One Layer of FireMaster FastWrap XL for Air Ventilation Duct Enclosures C - AJ - 7047 C - AJ - 7095 FRD 6 4 FireMaster FastWrap XL (packing material) C AJ 7098 F - - 1093 FRD 7 5 Approved through - penetration firestop sealant F F - - 103 FRD 18 F -C -7037 F -C -7036 W -L -7121 W -L -7009 W -J -7086 W -L -7145 www.morganthermalceramics.com 05.2011 Page 6 of 8 U Morgan ThermalCeramics ,� ►..— FireMaster'" FastWrap'' XL FASTDOOR XL Access Door Systems At 1 O O CI ft ,„;,; „;‘„, iou �os�mas�r�rosnrc 6 o 0 ASTM E 2336 Compliant Enclosure and Door System UL 1978 Compliant Enclosure and Door System FastDoor XL1 Access Doors Sizes FIGURE 3 Available Opening Sizes Ordering Code 1 UL listed FastDoor XL access panel 10" x 6" Door Opening 434- 6970 -034 -99X1 2 All Thread Rods and wing nuts 12" x 8" Door Opening 434 - 6970 -035 -99X1 3 Retainer Clips with threaded nut and wing bolts 12" x 12" Door Opening 434- 6970 - 036 -99X1 4 Insulation layers as required by UL or ITS Listings 16" x 12" Door Opening 434 - 6970 - 037 -99X1 5 FastDoor XL; 1-1/2 inch thick single layer insulation , 20" x 20" Door Opening 434- 6970- 038 -99X1 www.morganthermalceramics.com 05:2011 Page 7 of 8 V Morgan �"1'�� C ThermalCeramics ,_� Fire Master FastWrap� XL .. > . 2 and 3 Sided Wrap Detail for Attaching to Walls and/or Ceilings 3 ., © 3" 0 3,. 0 I .-.•.... : • ,.,.., EILIWA : imEwan:.::... . .;..,-:.:...: re N-, 1 %1.3 . r.s.,, \ ♦\ 0 ..... 4 N. \ . Lialtg&NA I Aw 1 \ .41 0 `i_ 0 © O FIGURE 4 1 1 or 2 Hour Rated Concrete floor, ceiling, or wall 2 Insulation layers as required by UL and ULC Listings (see datasheet Section 6) 3 Concrete fastener system 4 3/16" (5) thick x 2" (50) -3" (75) wide bar stock perforated 12" (305) o.c. 5 8" (203) maximum Air Gap 6 Duct (independently supported as required by code) 7 Steel banding min. 1/2" (13) wide by 0.015" (0.4) thick. 8 Banding clip www.morganthermalceramics.com 05.2011 Page 8 of 8 0 ONLINE CERTIFICATIONS DIRECTORY UL Online Certifications Directory HNLJ.V -19 Ventilation Duct Assemblies Design /System /Construction /Assembly Usage Disclaimer • Authorities Having Jurisdiction should be consulted in all cases as to the particular requirements covering the installation and use of UL Listed or Classified products, equipment, system, devices, and materials. • Authorities Having Jurisdiction should be consulted before construction. • Fire resistance assemblies and products are developed by the design submitter and have been investigated by UL for compliance with applicable requirements. The published information cannot always address every construction nuance encountered in the field. • When field issues arise, it is recommended the first contact for assistance be the technical service staff provided by the product manufacturer noted for the design. Users of fire resistance assemblies are advised to consult the general Guide Information for each product category and each group of assemblies. The Guide Information includes specifics concerning alternate materials and alternate methods of construction. • Only products which bear UL's Mark are considered as Classified, Listed, or Recognized. Ventilation Duct Assemblies See General Information for Ventilation Duct Assemblies Assembly No. V -19 September 01, 2009 Duct A Stability Rating - 2 Hr Integrity Rating - 2 Hr Insulation Rating - 2 Hr (Ratings applicable for Ventilation Ducts installed with or without branches) . _ I 3- tom. ti ~-- f / •• . `•w/ '.,� . 3 + 1 ' r'- I i t Lj, ," ' t � ` 3 I ... ••• r . : 1 t e :I . I :.�'' w '' ,I --- fl: f @ ) ' I I I _: I , .____________•-; I , .:Q ,-..- 1 : 3 I RIM ' - i ' " ' f # N .J. .... _ t... .....� ...j .......... t \J5 „,,,(1 J i , 1 Ei - - -- - - - - - x + 6” } t • 1 I i i I (I) 1 } 1 , 1 SECTION A -A . 1. Floor or Wall Assembly — Min 4 -1/2 in. (114 mm) thick reinforced lightweight or normal weight (100 -150 pcf or 1600 -2400 kg/m concrete floor or min 4 -3/4 in. (121 mm) thick reinforced lightweight or normal weight concrete wall. Wall may also be constructed of any UL Classified Concrete Blocks. See Concrete Blocks (CAZT) category in the Fire Resistance Directory for names of manufacturers. 2. Steel Air Duct — Min 0.030 in. (No. 22 gauge or 0.71 mm) thick (or heavier) steel duct having a max width to height ratio of 4 to 1 with max individual dimension of 85 in (2160 mm) and constructed in accordance with SMACNA HVAC Duct Construction standards. The sections shall be assembled using bolted flanges or SMACNA approved Transverse Joint Reinforcements. Duct to be rigidly supported in accordance with SMACNA requirement and as specified in Item 4. 2A. Steel Air Duct — As an alternate to steel air duct (Item2 min 0.030 in. (No. 22 gauge or 0.71 mm) thick (or heavier) round steel duct having a max diameter of 50 in. (1270 mm) and constructed in accordance with SMACNA HVAC Duct Construction standards. The sections shall be assembled using bolted flanges or SMACNA approved Transverse Joint Reinforcements. Duct to be rigidly supported in accordance with SMACNA requirement and as specified in Item 4. The following sizes and thickness may be used. 3. Fire Resistive System — The fire resistive system shall consist of the following: A. Batts and Blankets* — Nom 1 -1/2 in. (38 mm) thick, 6 pcf (96 kg /m blanket totally encapsulated within foil -scrim facers. The steel duct shall be wrapped with one layer of duct wrap installed with 3 in. (76 mm) transverse and longitudinal overlaps, or tightly butted transverse joints, in accordance with the manufacturer's installation instructions. All cut edges and ends shall be sealed with 3 in. (76 mm) wide pressure sensitive aluminum foil tape. THERMAL CERAMICS INC — FireMaster FastWrap +, FireMaster FastWrap XL or Pyroscat Duct Wrap XL B. Collars — Fabricated from Batts and Blankets* — Nom 1 -1/2 in. (38 mm) thick, 6 pcf (96 kg/m 6 in. (152 mm) wide blanket totally encapsulated within foil -scrim facers. The transverse butt joints shall be wrapped using a collar. The butt joint shall be located nom 3 in. (76 mm) from the edge of the collar. The collar shall be installed with 3 in. (76 mm) longitudinal overlaps. All cut edges and ends shall be sealed with 3 in. (76 mm) wide pressure sensitive aluminum foil tape. THERMAL CERAMICS INC — FireMaster FastWrap+, FireMaster FastWrap XL or Pyroscat Duct Wrap XL C. Steel Banding Straps — Min 1/2 in. (13 mm) wide by 0.015 in. (0.38 mm) thick stainless or carbon steel banding straps used in conjunction with min 1 in. (25 mm) long stainless steel crimp clips. Banding straps spaced a max 12 in. (305 mm) OC and 1 -1/2 in. (38 mm) from edges of collars. Cl. Steel Pins — (Not shown) —As an alternate to steel banding straps, for use with the butt joint collar technique, min 0.135 in. (3.4 mm) thick, 6 in. (152 mm) long steel insulation pins used in conjunction with 1 -1/2 by 1 -1/2 in. (38 by 38 mm) square or 1 -1/2 in. (38 mm) diameter, 0.016 in. (.40 mm) thick, galvanized steel speed clips. Pins spaced 1 -1/2 in. (38 mm) either side of the butt joint and 10 in. (254 mm) max, transversely around the duct, to secure the duct wrap and collar. Additional pins spaced 12 in. (305 mm) max between collars, required to support duct wrap on duct underside and to secure longitudinal lap. Pins installed in accordance with the manufacturers installation instructions. D. Firestop System — When the ventilation duct passes through a fire rated wall or floor assembly, the through openings shall be firestopped in accordance with System Nos. C- . AJ-7095. Ducts with a dimension greater than 39 in. (991 mm) shall be firestopped in accordance with System No. W -J -7086. See Through— Penetration Firestop Systems in Vol. 2 of the Fire Resistance Directory. 4. Hanger System — (Not shown)— For ducts with no dimension greater than 39 in. (991 mm) and a maximum width to height ratio of 4 to 1, no additional protection is required for hanger systems providing that a min 3/8 in. (10 mm) diameter threaded steel hanger rod is used in conjunction with min 1 -1/2 by 1 -1/2 by 3/16 in. (38 by 38 by 5 mm) angle or 1 -5/8 by 1 -5/8 in. (38 by 38 mm) by min 0.060 in. (1.5 mm) steel channel with steel drop in or wedge expansion type masonry anchors. For ducts with a perimeter of 148 in. or less, no additional protection is required for hanger systems provided that a min 1/2 in. (13 mm) diameter threaded steel hanger rod is used in conjunction with min 2 by 2 by 1/4 in. (50 by 50 by 6 mm) angle with steel drop in or wedge expansion type masonry anchors. For ducts with a perimeter larger than 148 in., no additional protection is required for hanger systems provided that a min 3/4 in. (19 mm) diameter threaded steel hanger rod is used in conjunction with min 2 by 2 by 1/4 in. (50 by 50 by 6 mm) angle with steel drop in or wedge expansion type masonry anchors. Hangers shall be spaced on maximum 60 in. (1500 mm) centers. Hangers shall be spaced on maximum 60 in. (1500 mm) centers. *Bearing the UL Classification Mark Last Updated on 2009 -09 -01 Reprinted from the Online Certifications Directory with permission from Underwriters Laboratories Inc. Copyright © 2009 Underwriters Laboratories Inc.® The appearance of a company's name or product in this database does not in itself assure that products so identified have been manufactured under UL's Follow -Up Service. Only those products bearing the UL Mark should be considered to be Listed and covered under UL's Follow -Up Service. Always look for the Mark on the product. UL permits the reproduction of the material contained in the Online Certification Directory subject to the following conditions: 1. The Guide Information, Designs and/or Listings (files) must be presented in their entirety and in a non - misleading manner, without any manipulation of the data (or drawings). 2. The statement "Reprinted from the Online Certifications Directory with permission from Underwriters Laboratories Inc." must appear adjacent to the extracted material. In addition, the reprinted material must include a copyright notice in the following format: "Copyright © 2009 Underwriters Laboratories Inc. 474 " r • An .ndepentlent nrga:r zalIor working to' a sater world with rnlegr!ty preC Sron and knowledge 4 ,1 •