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3T Project: - Untitled72 11/30/2012 Prepared By: 04:53PM RECEIVED DEC 03 2012 CITY OF TIGARD BUILDING DIVISION 3T Submittal Cover Sheet Unit Report Performance Summary Report Acoustic Summary Certified Drawings Unit Feature Sheet CITY OF TIGARD Approved .VlAE1 1 .. � [ v N Conditionally Approved..„„ [ ] See Letter to: Follow [ ] Attached ...... .. PermltN . -r / - #72 Ad•.1:: ► sue Byr. -1011- Date: Approved plans shall be on job site. OFFICE COPY REFRIGERANT PIPING SHALL NOT BE INSTALLED IN A MEANS OF EGRESS, AND SHALL COMPLY WITH OMSC 1107.2.2 FOR PENETRATIONS Residential Carrier Products Bldr 1.19i Page 1 of 10 Dec. 6. 2012 2:12PM No. 3541 P. 1 RECEIVED °Superior Air Conditioning, Heating, and Service Since 1946° DEC 0 6 2012 7316 N.E. 47th Ave. Vancouver, WA 98661 CITY OF TIGARD 363 6018 8 83 -5 465 FAX 3 BUILDING DIVISION 60/63 -5 • 12/6 —a FAX COVER SHEET DATE: December 6, 2012 TO: DAN NELSON FROM: Matthew D. Todd, P.E. COMPANY: City of Tigard Bldg Dept COMPANY: Entek Corporation FAX NO.: (503)- 598 -1960 FAX NO.: 360- 883 -5465 THERE ARE 2 PAGES INCLUDING THOS COVER PAGE IN THIS TRANSMISSION. SUBJECT: AT &T Tigard 6975 SW Sandberg Road Activity # MEC2012- 00625 Dear Dan, I sent this over late on Monday after we met. This detail shows the roofed in member with a sheeting piece over the top. The 4"x4" are anchored @ each end with "L" brackets with opposing restraints. The units themselves are attached to the 4 x 4's-with lag screws Please let me know if you have any questions. IF YOU DO NOT RECEIVE ALL OF THIS TRANSMISSION PLEASE CALL 360- 883 -5462 IMMEDIATELY. THANK YOU. Residential Division -- Air Conditioning and Heating x ENTEK CORPORA T /ON D ATE REVISION ® - SHEET Oua/ityC/ima/e Conditioning For Business and Industry > A T& T BUILDING TIGARD, 0 7316 N.E. 47th AVE VANCOUVER WA 96661 O JOB# 12569 12/3/12 1V1 A 0 1 Phone (360) -883 -5462 Fax (360) -883 -5465 Cr _ _ — CONTACT: Matthew D. Todd ` � 1 • THIS DRAWING IS THE EXCLUSIVE PROPERTY OF ENTEK CORPORATION. THE DRAWING ORBWEPRINTS CONTAINING THIS DESIGN ARE AND SHALL REMAIN THE PROPERTY OF ENTEK CORPORATION. THE DELIVERY OF THE ORIGINAL OR COPIES THEREOF DOES NOT CONSTITUTE A PUBUCTAION THEREOF. THESE DRAWINGS OR BLUEPRINTS ARE EXHIBITED TO YOU SOLELY FOR THE PURPOSE OF TRANSACTING A SALE BY ENTEK CORPORATION, OF THE AIR CONDITIONING SYSTEM INCORPORATING THIS DESIGN. ANY COMMUNICATION OF THIS DESIGN WIYHOUT THE CONSENT OF ENTEK CORPORATION CONSTITUTES A VIOLATION OF THE LAWS OF THIS STATE CONDENSING UNIT MAINTAIN CLEARANCES AS SPECIFIED BY MANUFACTURER. I I I I I I I 1 INSULATED REFRIGERANT PIPES ROUTE REFRIGERANT PIPES TO FAN /COIL UNIT. CONDENSING UNIT TO BE FASTENED TO 4 "X4" AT THE 4 AVAILABLE THRU HOLES WITH i" OR LARGER LAG SCREWS I 4" X 4" X LENGTH OF CONDENSING UNIT I I PRESSURE TREATED WOOD EXISTING ROOF CURB WITH H METAL FLASHING CAP MEMBRANE ROOF STAINLESS "L" BRACKETS (4 TOTAL PER UNIT) WITH 4" OR LARGER LAG SCREWS (4 TOTAL PER BRACKET, 2 IN EACH PLANE) / // 1 CONDENSING UNIT DETAIL ■2.0 NO SCALE Unit Report For 3T Project: - Untitled72 11/30/2012 Prepared By: 04:53PM J I in, .._ r r (I f I r 0 I I- - - Outdoor Unit Parameters Indoor Unit Parameters Unit Quantity 1 Unit Quantity' 1 Unit Model 24ABB Unit Model FV4C Unit Size 3 Tons Unit Size 24 - 42,000 Btuh Voltage 2081230 -3 -60 V -Ph -Hz Cabinet Insulation :Single -piece cabinet with 1 -in. super thick insulation Voltage 208/230 -1 -60 V -Ph -Hz System Parameter System Quantity 2 Heating Size No Heat Outdoor Unit Dimensions and Weight Indoor Unit Dimensions and Weight Unit Length 2' 3.0" Unit Length 1' 10.1" . Unit Width 2' 6.0" Unit Width 1' 9.0" Unit Height:.. 3' Unit Height 4' 5.0" Unit Shipping Weight 170 lb Unit Shipping Weight 150 lb Note:Outdoor unit dimensions may vary depending on the ▪ minor series sent from the factory. Warranty Information Indoor FV4C First Year - Parts Only (Standard) Warranty Information Outdoor 24ABB First Year - Parts Only (Standard) Ordering Information Part Number Description Quantity Outdoor Unit 24ABB336A005 24ABB Base Air Conditioner with Puron Refrigerant 3 Tons Cooling 2 Base Unit 13 SEER @ ARI Conditions 2 Dense Grille 2 Accessories KSALA0601AAA MotorMaster Low Ambient Controller 2 KAACH1401AAA Crankcase Heater 2 KAAFT0101AAA Evaporator Freeze Thermostat 2 HC40GE226 Ball Bearing Fan Motor 2 ' KAAWS0101AAA Winter Start Control 2 KAALPO401PUR Low Pressure Switch 2 KAAHI0501 PUR High Pressure Switch 2 Base Unit - Indoor Residential Carrier Products Bldr 1.19i Page 2 of 10 Unit Report For 3T Project: — Untitled72 11/30/2012 Prepared By: 04:53PM FV4CNF003000 FV4C Performance Series Fan Coil with Puron 24000 BTU Cooling 2 Base Unit Single -piece cabinet with 1 -in. super thick insulation 2 Standard 2 Residential Carrier Products Bldr 1.19i Page 3 of 10 Performance Summary For 3T Project: - Untitled72 11/30/2012 Prepared By: 04:53PM • System: 24ABB /FV4C System Quantity 2 Altitude 0.0 ft Linear Pipe Length 0.0 ft Actual SEER 14.0 EER @ ARI Conditions' 12.0 Outdoor Unit Parameters Indoor Unit Parameters Unit Quantity 1 Unit Quantity 1 Unit Model 24ABB336A005 Unit Model FV4CNF003000 Unit Size (Nominal) 3 Tons Unit Size (Nominal) 24 - 42,000 Btuh Voltage 208/230 -3 -60 V -Ph -Hz Voltage 208/230 -1 -60 V -Ph -Hz Clg Ent Air DB Ambient 95.0 °F Actual Airflow 1200.0 CFM Standard Airflow 1200.0 CFM Total Net Clg Capacity' 33.46 MBH Net Sensible Clg Capacity 25.64 MBH Ent Air DB 80.00 °F Ent Air WB 67.00 °F Ent Enthalpy 31.44 BTU /lb Lvg Air DB 60.22 °F Lvg Air WB 58.32 °F Lvg Enthalpy 25.24 BTU /lb Heating Size (Nominal) No Heat Indoor Unit External Static 0.50 in wg Total System Power 2.79 kW Clg Coil Note:."""'Airfow adjusted to high (400 cfm /ton). Outdoor Electrical Data Indoor Electrical Data: Unit Voltage 208/230 -3 -60 V -Ph -Hz (For units with no factory installed electric heaters) • Fan Motor FLA 1.40 Amps Unit Voltage 208/230 -1 -60 V -Ph -Hz MCA 14.5 Amps Unit FLA 4.3 Amps Max Fuse 20 Amps Unit MCA 5.4 Amps Operating Range Min 197 V Unit MOCP 15.0 Amps Operating Range Max 253 V Unit Min Wire Size 14.0 Compressor RLA 10.5 Amps Unit Fuse /Ckt Bkr Amps 15.0 Amps Compressor LRA 71.0 Amps Motor HP 1/2 HP Min Wire Size @ 60C 14 :Notice: Indoor Elect. data is for 208/230 -1 -60 voltage Min Wire Size @ 75C 14 Max Length Wire Size @ 60C 63 ft Max Length Wire Size @ 75C 60 ft Acoustics Sound Power Levels, db re 10E -12 Watts Outdoor Unit (dB) Indoor Unit (dB) DBA Level 75.0 NA 63Hz NA 68.4 125Hz 59.5 64.4 250Hz 63.0 60.4 500Hz 68.8 57.4 1000Hz 70.0 55.4 2000Hz 65.5 53.4 4000Hz 61.5 49.4 8000Hz 53.5 NA Sound Message Residential Carrier Products Bldr 1.19i Page 4 of 10 Acoustic Summary For 3T Pnoject:—UndUed73 1100/2012 Prepared By: 04:53PK4 • Outdoor Unit Parameters: Tag Name 3T Unit Model 24ABB Unit Size 3 Tons Variations Dense Grille Octave Band Center Frequency, Hz 63 125 250 500 1k 2k 4k 8k dBA Sound Power,dB 0.0 59.5 63.0 68.8 70.0 65.5 61.5 53.5 A-Weighted Sound Power, dBA 75.0 Indoor Unit Parameters: Tag Name 3T Unit Model FV4C Unit Size 24 - 42,000 Btuh Cabinet Insulation Single-piece cabinet with 1-in. super thick insulation Octave Band Center Frequency, Hz 63 125 250 500 1k 2k 4k 8k dBA Sound Power,dB 68.4 64.4 60.4 57.4 55.4 53.4 49.4 0.0 A-Weighted Sound Power, dBA 0.0 Residential Carrier Products Bldr 1.19i Page 5 of 10 • X - 0 - 0 _ En m o a v (D. CD m CO C n v 24ABB3 1 a N V a DIMENSIONS - ENGLISH N a c n ELECTRICAL OPERATING SHPPING SHPPING Er) DINT SERIES CHARACTERISTICS A B C D E F 0 K L M N P WEIGHT Ibs) WEIGHT Ibs) DIMENSIONS IL x W x HI CO 24A80318 2 X 0 0 0 23 1/8' 25 5/16' 3 3/1' 3/4' / 7 /I6' 18 1/16' 7 13/16' 2 13/16' 1/2' 16 I/2' 15' 12' 101 130 24 1 /4' 1 27 3/8' X 33 I/2' 24460324 I X 0 0 0 23 1/8' 25 5/16' 3 3/4' 3/4' 4 7/16' 18 1/16' 7 13/16" 2 13/16' 1/2' 16 1/2' 15' 12' 110 134 24 1/4' 1 27 3/8' 1 33 1/2' 24480330 I X 0 X 0 23 1/8' 28 11/16' 3 3/4' 3/4' 4 1/16' 18 1/16' 7 13/16' 2 13/16' 1/2' 16 1/2' 15' 14' Ill 136 24 1 /I' 1 27 3/8' X 33 1/2' 24468336 1.2 X X X X 25 3/1' 32 5/16" 3 116' 1/8' 1 1/16' 21 1 /4' 9 1/8' 2 15/16' 5/8' 14 1/4' 10 1/2' 16' 141 170 26 7/8' X 30 1/16' X 35 15/16' (.1 ". 24488342 0.1 X 0 X X 31 3/16' 32 5/16' 3 1/8' 1/6' 6 9/16' 24 11/16' 9 I/O' 2 15/16' 5/8' 15 3/4' 16 1/4' 13 3/4' 190 218 32 3/8' X 35 1/2' 1 35 15/16" 24488348 1.2 X X X X 31 3/16' 35 3/4' 3 116' 7/6' 6 9/16' 24 11/16' 9 1/8' 2 15/16' 5/8' 16 3/8" 15 3/8' 15 1/4' 166 224 32 3/8' X 35 1 /2' X 39 3/8' 24A66360 2 X 0 0 0 31 3/16' 25 1/2' 3 1 /8' 1/8' 6 9/16' 24 11/16' 9 178' 2 15/16' 5/8' 14 1/8' 15 3/8' 11 3/8' 190 226 32 3/6' X 35 1/2' X 32 9/16' 24468360 2 0 X X X 31 3/16' 28 15/16' 3 1/6' 1/6' 6 9/16' 24 11/16' 9 1/8' 2 15/16' 5/8' 16' 15 1/2' 12 3/4' 198 230 32 3/8' X 35 1/2' X 32 9/16' X = YES 0 = NO g3 G R a CD A o. M AIR IN AIR 0. DISC?3RG'. AIR DISCHARGE G I v I \ I / 3 I f ,/ 1 ..., 1 ( ", FIELD CONTROL ii AIR IN il �6� .�N • s ,..., 00 6 F B a � /' �■ `� _' .... _AIR IN FIELD POWER SUPPLY CONN 1 � 7 /6" HOLE WITH, N 1111111 —_ LIOUID LINE 0318' in *•9 CONN. P i + \� ` � '�� /� / 44�',—� E 3. 1 1 7 /8" L 5/16' + 0D VAPOR LINE CONN — K AIR IN MINIMUM 03/8' 11EDO8N XNOCXOUIS U1gT SIZE MOUNTING PAD v PLACES DIMENSIONS 18,24,30 23 112' X 23 112' 36 26' X 26' 48,60 31 1/2' X 31 112' 35' X 35' ( a O W A CD O) W N O o � _ K N 0 - 0 - u CD m o v ` m ' g a 1 CO C n FV4C ..`• CU - m CL v N O a c o co lipli a I/6 I 3q2• • 2 DIA K,0 'S FOR HIGH VOLTAGE POWER AIRING 7l8 A 0 I In" FOR LON VOLTAGE , CONTROL AIRING NOTE, K ■_ 1 SERIES DESIGNATION IS THE IATH POSITION OE UNIT PRODUCT NNNBER IY I IS /I6' - I 1' I J /B' TOP VIEW Ult I o D 3/I6• n• 1/e' ,,,,.•-.1 C 2 1/03. I OU IIEI ■AI SIN CD ISCOA X[CI OR a ha CIRCUIT BREAKER YORE' `ICOA 21• 'F" TROUT -I LOCATION OR SERV IfC Al1 URI U CONNECTION SIZES IIB '.I JI J2',2'OIA, X, O, 'S I a0WER. CT CONTROL. NOTE. MODULAR I CESS ELECT NEATER StlCTIO 002 1002 - JIA• I. D. SWEAT 065 6 006 - II IOA XILx VOLTAGE UNITS HILL HAVE ACC CSS PANC1,15 I D SCAT AI TCRNA TC POA[A TIR ING TND PI FCE CL AVOID JIB' I D SWEAT IIB'D IA X 0 OP P OSIIE SIDE CABINET CONDENSATE VC FP FOR LOW VOLTAGE CONTROL TIRING v O PT IOK AL FI[LO CONVERTED A IG NI SIDE RETURN OPENING OIL ACCESS IALCT AIA A (ST OP[ COIL UNITS ONLY, PANEL � � I I /x' Y/ 2 SIB' A II /16 A u IrtlxG ICTON_ IOem LU E ! I = C vxxn ' • I W ID LINE CONNF[TION J Il l6 N CONNECTION LINE i w SUCTION LINE CONNECTION �� v 6• '21 l l x�l H o • 0 MN ® -SUCTION GIN[ � NODUL UNI O ?. , 6 1 /I6' I II 1/A' q SUCT LINE 9 Ill' 1 �� ' 1.1 �� 3/41 � . • B' FILTER ACCESS 05 / OPENING PANEL OCTETS PANEL ONFIG FOE A' I IS 10115 2 Ilx' D SLOPE COIL DETAILS SLOPE COI LS RIGHT SIDE VIEW CONNECTION LOCATIONS SHOWN DOANFLOY OR 0OR12 FOR PROW OR HIONS RIGHT AP NIDICAlION5 IX ICi AIA X CI AIA EFT APPLICATIONS FRONT VIEW 'A' COILS SHORN AI IH •A COIL DETAILS CONNECTION WNMROY A LICATIOxG LOCATIDIS FOR UPFLON OR HOR12 APPLICATIONS DIMENSONS UNIT SIZE A B C D E H J in mm in mm in mm in mm in mm in mm in mm FV4CNB003 53 -7/16 1357 21 -1/8 537 19 -1/4 489 19 -1/8 486 19 -3/16 487 28 -5/16 735 19 483 FV4CNB005 53 -7/16 1357 21 -1/8 537 19 -1/4 489 19 -1 /8 486 19 -3/16 487 28 -5/16 735 - - FV4CNB006 59 -3/16 1503 24 -11/16 627 22 -3/4 578 22 -11/16 576 25 -1/4 642 34 -1/16 865 - - FV4CNFOO2 42 -11/16 1084 17 -5/8 448 15 -3/4 400 15 -5/8 397 10 -3/4 273 - - - - FV4CNF003 53 -7/16 1357 21 -1/8 537 19 -1/4 489 19 -1/8 486 19 -3/16 487 - - 19 483 FV4CNFOO5 53 -7/16 1357 21 -1/8 537 19 -1/4 489 19 -1/8 486 19 -1/2 495 - - - cu A CO "I W ON O o _, E N O 70 - 0 - 0 - fD m o a w m' I m ' ° NOTES I CONDENSATE PAN DRAIN CAPS NOT SHORN FOR CLARITY , SLOPE COIL � ° _ D) 1 /I[• TM CD AIRFLOW I? PLACES). AIRFLOW 2 ) /II' TS 0- ' _ i r 12 PLACES(• N 1 + o Z r. a 1RIMAAY DRAM © 12 /LACES I. ) C .... SECONDARY GRAIN F G PRIMARY DRAIN Fn I I /.' �� SECONDARY DAAI CO DA PRIMARY AI IYP SF.. Q SECONDARY DRAM ∎■■ SECONDARY BRAY I I/. \ © PRIMARY OI I I I' • L .V4:CISJ IY/ • )le' 2 1ll[• 11 Il I. K[S 111 1• 2' 1/e Il. rll 7/11. 2 I/e• 2 )/Ip• J I /.• 1 13/111 . F 111 RIP• HORIZ. LEFT Y 12 PLACES!. UPFLOW (FIELD HOW. RIGHT ^ (AS SHIPP (AS SHIPPED) (FIELD CONVERTED) ♦ I CD C Ei1P' CES • AN RAC MOW Ma LTC A II A - DIMPLES PROVIDED Id AI RILOW PLACES) PANEL. 0 RACK d IR T F CABINET DOWNS ORES PROVIDED AIRFLOW I JJIA' )P. 11e' II A NOR IITIIAI xAxeIRO HARDWARE 10 e[ f1E 10 SUPPLIED. ' T T Y2 (LACE S S.• _ y % — r—i• YIP I IIV © 12 PLACES. D RAIN F .) /.• • I O G CL SECONDARY Er PRIMA RI DRAIN ) 1 /I1• S(COWIARI DRAIN RIMARI DRAIN v PRIMARY DRAIN I I) Ip' SECONDARY DRAIN 11• O IIP6 SCCOWIAR! ORAIX 1r _ PRI MARY IRAIX� A � 1 ; rI © 1 * e 1' II P, // II ® f © A` 1 I 1_ J• I/e © .�12PLACES). I /i' I + an I vi' 1- -sn e• Mill J 1/11 v4e• TIP. I ) i/e I/2. 1 IMP. 1 Ile' UP . r Y ule• 1N LAC(SI• i 1/11• iii• 1 ]ll 1 I/e• (III- 2 Jfle. . J/P 1 13,14. III • O 12 PLACES). DOWNFLOW ' HORIZ. RIGHT nr• HORIZ. LEFT UPFLOW (FIELD CONVERTED) (FIELD CONVERTED) (a IAS SHIPPED) (AS SHIPPED) A -COI I DIMENSONS UNIT SIZE F G COIL TYPE SHIPPING WEIGHT in mm in mm lb kg FV4CNB003 26 -15/16 684 27 -1/2 699 SLOPE 150 68 FV4CNB005 26 -15/16 684 27 -1/2 699 A 172 78 FV4CNB006 32 -15/16 837 32 -5/8 829 A 207 94 FV4CNF002 18 -9/16 471 18 -1/4 464 A 135 61 FV4CNF003 26 -15/16 684 27 -1/2 699 SLOPE 150 68 FV4CNFOO5 27 -1/4 692 26 -15/16 684 A 172 78 FV4C v O A G•) CO co W N O �° K _. N O Base '13 Base"3 Air Conditioner t e with Purone Refrigerant M Turn to ehe Experts. • Product Data INDUSTRY LEADING FEATURES / BENEFITS Efficiency - • 13.0 - 13.2 SEER /10.8- 11 -0 EER (based on tested combinations) • Micronabe lbchnology refrigeration system - - • Indoor air quality accesses available Sound • Sound level as low as75dBA • Sound level as low as 74 dnA with accessory sound blanket - Comfort • System supports Edge's Thu:midis or standard thermostat controls - - - Reliability _ - - • Patron' refrigerant - environmentally sound won't -- deplete the ozone layer and low lifetime servoe cost. • Sc oll compressor • Internal prey relief valve �.. �•.�,.o»� • Intents] thermal overload • Filter dries Carrier's Air Conditioners with Patron" refrigerant provide a collection of features unmatched by any other family of • Balanced refrigeration system for maximum reliability equipment. The 24ABB has been designed otitiz:rg Carrier's Durability Patron refrigerant The environmentally sound refrigerant allows VVeariwrAnnor^' protection package: von to make a responsible decision in the protection of the earth's ozone layer_ • Solid, durable sheet metal construction As an Energy Star' Partner, Carrier Corporation has determined • Dense wire coil guard available that this product meets the Energy Stare guidelines for energy (3 -phase units came standard with dense wire coil efficiency. Refer to the combination ratings in the Product Data guard) for system combinations that meet Energy Star" guidelines • Baked -on, complete outer coverage, powder paint NOTE: Ratings contained in this document are subject to Applications change at any time. Always refer to the ERI directory • Long -line - up to 250 feel (76.20 m) total equivalent (www.ahridirectory.orgt for the most up -to -date ratings length, up to 200 feet (60.96 m} condenser above information. evaporator, or up to 80 ft. (24.38 in) evaporator above condenser (See Longline Guide for more information.) • Low ambient (down to - 20`Fi- 289`C)) with accessory kit Residential Carrier Products Bldr 1.19i Page 9 of 10 FV4C Performance' Series Fan Coil (-Ca ar rrer Sizes 002 Thru 006 Turn to the Experts. Product Data PREMIUM ENVIRONMENTALLY SOUND FAN COIL The FV4C is the premium air handler combining the proven technology of Carrier fan calls with environmentally sound Pm refrigerant The FV4C achieves an operational advantage when the ECM (Electronically Commutated Motor) is combined with a Carrier Performance'" heat pump with. Pirrone refrigerant. - � With attention to quiet, efficient, and comfortable operation, Carrier has developed a new benchmark for superior indoor comfort and control_ ArmorCoat" provides a tin plating of the indoor coil's copper hairpins. This creates a barrier between the corrosion- causing elements and the coil. Carrier's heat pump and air conditioning systems now feature Purond refrigerant (R-410.44, the chlorine -free refrigerant that is the future for the residential beating and cooling industry. The FV4C using ?nrou refrigerant maicimi -et performance for environmentally sound systems. In addition to emimnmental safety, these systems are 30 to 40SE more efficient than standard heating and cooling systems, thereby combining enceflnce in s envy and environmental safety. The FV4C provides these benefits due to Carrier's command of • ECM technology. These motors are extremely efficient at all speeds, and enable the FV4C ro operate at the correct speed to deliver airflow preciwely, ensuring proper performance across a I wide range of dna static pressures. This adaptive efficiency also makes installation quality easier to achieve for today's demanding homeowner. Carrier's command of ECM technology may be moo evident in the comfort advantages that ECM can deliver. Operation set up steps on the Easy Select ' Board provide the installing technician with alternatives to rnaai*ni-c comfort and efficiency. For true indoor comfort, the homeowner can achieve command of both temperature and humidity in cooling and heating modes. Another feature which sets the FV4C apart is the factory- installed TXV, which enhances efficiency and provides compressor protecting operation at all recommended conditions. Grooved capper tubing, louvered aluminum fins, and the large face areas of , the FV4C refrigerant coils also provide superior efficiency, for high SEER and HSPF performance. Carrier leads the way in condensate control, a hallmark of these multipoise fan coils. All of these featured components are protected within a rugged, prepainted metal cabinet lined with super thick high demity insulation. For neat, high quality insialations the unit exterior features sweat refrigerant connections for simple leak free performance, and multiple electrical entry for both high and low voltage service. For superior technology and unmatched comfort, the environmentally sound and efficient FV4C can't be beat. Residential Carrier Products Bldr 1.19i Page 10 of 10 f ,s C L - Y� Oregon Energy Efficiency Specialty Code :" : • Mechanical Compliance Certificate i \, `- �`;-°'�' . H V i HVAC: Heating and Cooling Equipment Type Developed with COMct Software Department of Consumer and Business Services Version 3.8.0 Building Codes Division RECEIVED 1535 Edgewater NW, Salem, Oregon RECEIVED Mailing address: P.O. Box 14470, Salem, OR 97309 -0404 Phone: 503- 378 -4133 • Fax: 503- 378 -2322 DEC 0 3 2012 Web: bcd.oregon.gov CITY OFTIGARD BUILDING DIVISION SECTION 1: PROJECT INFORMATION Project type: New construction ❑ Addition X Alteration ❑ (check only one) Project title: AT&T Beaverton Vault Construction site Address: 6975 SW Sandberg Road City: Tigard State: OR ZIP: 97635 Permit number: Permit date: Owner /agent First and last name: AT&T! c/o Fiber Bond Corporation Compan : Fibre Bond Corporation Address: 1300 Davenport Drive City: Minden State: LA ZIP: 71055 Phone number: 318 - 371 -6321 E -mail: Glenn.mann • fibrebond.com Designer /contractor First and last name: Matthew D. Todd, P.E. Company: Entek Corporation Address: 7316 NW 47thy Ave City: Vancouver State: WA ZIP: 98661 Phone number: 360 - 883 -5462 E -mail: mtoddpentekhvac.com SECTION 2: GENERAL INFORMATION Building type: Wireless Tower — Radio Room Floor area sq. ft.: 120 r CONSUMER SER 440 -4915 (4 /11 /COM) Page 1 of 14 ( n SECTION 3: MECHANICAL SYSTEMS LIST HVAC equipment type Cooling equipment type Quantity Quantity None Rooftop package DX unit Field- assembled DX system Single package vertical AC unit Hydronic coil Split DX system 2 Packaged terminal DX unit Other Zoning category (check one) Single zone: ❑ Multiple zone: ❑ Condenser type (check one) Economizer type (check one) Air cooled X Air ❑ Evaporatively cooled ❑ Water ❑ Water cooled ❑ None X HVAC equipment type Heating equipment fuel type /heat source: Electric Propane Natural gas Other fossil fuel Oil Hot water Steam Zoning category: Single zone: X Multiple zone: ❑ Heating equipment type Quantity Quantity None XX Types of heat pumps Central furnace Packaged terminal unit 2 Duct furnace Rooftop packaged unit 2 Hydronic or steam coil Single package vertical unit 2 Radiant heater Split system Unit heater Water source Other Groundwater source Ground source Other 1. Must be paired with plant heating: hot water and steam equipment type. 2. 503.2.1.1: Heat pump if > GKW Heat 440 -4915 (4 /11 /COM) Page 2 of 14 HVAC fan system details Distribution type (check one) Fan variable flow control (check one) Single duct X Vane -axial fan w /variable pitch blades ❑ Single fan, dual duct ❑ Mechanical adjustable -speed drive ❑ Dual fan, dual duct ❑ Electrical adjustable -speed drive ❑ Three duct ❑ Other control ❑ Duct design static pressure (inches w.g.) N/A Terminal unit type (check one) VAV box ❑ Fan system details (nameplate) Fan powered VAV box ❑ Supply fan HP Fract VAV mixing box ❑ Return fan HP N/A CV mixing box ❑ Total fan power Fract Reheat/recool coil ❑ Total CFM 1,200 Reheat type (check one) Electricity ❑ Hydronic ❑ Steam ❑ SECTION 4: REQUIREMENTS CHECKLIST A B Total Capacity capacity Eff. Cooling equipment type Quantity (kBtu /h) (A x B) Efficiency units Ductless Mini - Split Mitsubishi MSY36 2 33,460 66,920 14.0 A B Total Energy Capacity capacity Eff. Heating equipment type source Quantity (kBtu /h (A x B) Efficiency units 440 -4915 (4 /11 /COM) Page 3 of 14 SECTION 5: REQUIREMENTS CHECKLIST ❑ [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. ❑ [503.2.1.1] Packaged Electric Equipment. Specified packaged electrical equipment has a heat pump as the primary heating source ( >6KW electric heat). Exceptions: o Unstaffed equipment shelters or cabinets used solely for personal wireless service facilities Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A Cooling Only ❑ [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. Exceptions: o 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 o 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 ❑ [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. ❑ [503.2.3] Equipment meets minimum efficiency. ❑ [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. Location in plans /specs where compliance can be identified (enter NA if not applicable): In Space with Lead /Lag Control ❑ [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. Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [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 degrees F (2.8 degrees 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: o Thermostats requiring manual change over between heating and cooling modes Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A Cooling Only 440 -4915 (4 /I 1 /COM) Page 4 of 14 ❑ [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. Location in plans /specs where compliance can be identified (enter NA if not applicable): 24/7 Radio Room ❑ [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. Exceptions: o Zones that will be operated continuously o Zones with a full HVAC load demand not exceeding 6,800 Btu /hour (2 kW) and having a readily accessible manual shutoff switch Location in plans /specs where compliance can be identified (enter NA if not applicable): 24/7 Radio Room ❑ [503.2.4.5] Shutoff damper controls. Both outdoor air supply and exhaust are equipped with not less than Class I motorized dampers. Exception: o Gravity dampers shall be permitted for outside air intake or exhaust airflows of 300 cfm or less Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [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. Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [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. Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [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: o Zones requiring only comfort heating or comfort cooling that are served by a system primarily used for process temperature and humidity control Location in plans /specs where compliance can be identified (enter NA if not applicable): Dedicated Cooling 440 -4915 (4/1 I /COM) Page 5 of 14 ❑ [503.2.4.9] Humidity control. If a system is equipped with a means to add or remove moisture to maintain specific humidity levels in a zone or zones, a humidity control device is provided. Location in plans /specs where compliance can be identified (enter NA if not applicable): Dehumidifier in Space Existing ❑ [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: o Hospitals, process needs, archives, museums, critical equipment, and other non - comfort situations with specific humidity requirements outside this range Location in plans /specs where compliance can be identified (enter NA if not applicable): 24/7 Radio Room ❑ [503.2.4.9.2] Humidity control. Where a humidity control device exists it is set to maintain a deadband of at least 10 percent relative humidity where no active humidification or dehumidification takes place. Exception: o Heating for dehumidification is provided with heat recovery or heat pumping and the mechanical cooling system efficiency is 10 percent higher that required in Section 503.2.3, HVAC equipment performance requirements Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [503.2.5] Ventilation. Ventilation, either natural or mechanical, is provided in accordance with Chapter 4 of the OMSC. 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 OMSC. Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [503.2.5.1] Demand controlled ventilation (DCV). DCV is required for densely occupied spaces larger than 500 square feet for simple systems and spaces larger than 150 square feet for multiple zone systems. Exceptions: o Systems with energy recovery complying with Section 503.2.6 o Spaces less than 750 square feet (69.7 square meters) where an occupancy sensor turns the fan off, closes the ventilation damper, or closes the zone damper when the space is unoccupied Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [503.2.5.2] Kitchen hoods. Kitchen makeup is provided as required by the OMSC. Exceptions: o Where hoods are used to exhaust ventilation air that would otherwise be exhausted by other fan systems o Kitchen exhaust systems that include exhaust air energy recovery complying with Section 503.2.6 Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A 440 -4915 (4/I I /COM) Page 6 of 14 ❑ [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 monoxide sensing devices. Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [503.2.6] Energy recovery ventilation systems. Individual fan systems that have both a design supply air capacity of 5,000 cfm or greater and a minimum outside air supply of 70 percent or greater of the design supply air quantity have an energy recovery system. Exceptions: o Where energy recovery systems are prohibited by the OMSC o Systems serving spaces that are not cooled and are heated to less than 60 degrees F o Where more than 60 percent of the outdoor heating energy is provided from site - recovered or site solar energy o Type 1 kitchen exhaust hoods o Cooling systems in climates with a one percent cooling design wet -bulb temperature less than 64 degrees F (18 degrees C) o 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 o System exhausting toxic, flammable, paint exhaust, corrosive fumes, or dust o Laboratory fume hood systems that include qualifying features Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [503.2.7] Duct and plenum insulation and sealing. All supply and return air ducts are 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 OMSC. • Exceptions: o When located within equipment o When the design temperature difference between the interior and exterior of the duct or plenum does not exceed 15 degrees F (eight degrees C) ❑ [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: o Continuously welded and locking -type longitudinal joints and seams on ducts operation at static pressures less than two inches w.g. pressure classification Location in plans /specs where compliance can be identified (enter NA if not applicable): All Existing Duct To be re -used as -is ❑ [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. Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A 440 -4915 (4/11/COM) Page 7 of 14 ❑ [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 plenums are leak- tested in accordance with the SMACNA HVAC Air Duct Leakage Test Manual. Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [503.2.8]. Piping insulation. All pipes serving space - conditioning systems (hot water piping for heat systems, chilled water, refrigerant, brine piping systems, and steam piping) are insulated as specified by this section. Exceptions: o Pipe insulation is not required for factory- installed piping within HVAC equipment o Pipe insulation is not required for piping that conveys fluids having a design operating temperature range between 60 degrees F and 105 degrees F o Piping within room fan -coil (with AHRI440 rating) and unit ventilators (with AHRI840 rating) o Pipe insulation is not required for runout piping not exceeding four feet in length and one inch in diameter between the control valve and HVAC coil ❑ [503.2.9.1] Air system balancing. Each supply air outlet and zone terminal device is equipped with means for air balancing in accordance with the requirements of the OMSC Section 603.17. Discharge dampers intended to modulate airflow are prohibited on constant volume fans and variable volume fans with motors 10 horsepower and larger. Location in plans /specs where compliance can be identified (enter NA if not applicable): Existing Duct System ❑ [503.2.9.2] Hydronic system balancing. Individual hydronic heating and cooling coils are equipped with means for balancing and pressure test connections. ❑ [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. Location in plans /specs where compliance can be identified (enter NA if not applicable): O &M's Due to Fibre Bond on Completion of Project ❑ [503.2.10] Air system design and control. Each HVAC system having a total fan system motor nameplate hp exceeding five horsepower meets the provisions of Sections 503.2.10.1 through 503.2.10.2. Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [503.2.10.1] Allowable fan floor horsepower. Each HVAC system at fan system design conditions does not exceed the allowable fan system motor nameplate horsepower (option 1) or fan system brake horsepower (option 2) as shown and calculated in requirement details. Exceptions: o 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 o Individual exhaust fans with motor nameplate horsepower of 1 horsepower or less Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A • 440 -4915 (4/1 1 /COM) Page 8 of 14 ❑ [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: o For fans less than 6 bhp, where the first available motor larger than the bhp has a nameplate rating within 50 percent of the bhp, selection of the next larger nameplate motor size is allowed o 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 Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [503.2.10.3.1] Large volume fan systems. Fan systems over 8,000 (7 m3 /s) cubic feet per minute 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 OMSC, whichever is greater. Exception: o 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 Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [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. Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [503.2.12] Hot gas bypass limitation. Cooling systems do not use hot gas bypass or other evaporator pressure control unless the equipment is designed with multiple steps (or continuous) capacity modulation. Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A . ❑ [503.2.12] Hot gas bypass limitation. For cooling systems < =240 kBtu/hour, maximum hot gas bypass capacity is no more than 50 percent total cooling capacity. Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A 440 - 4915 (4/1 l /COM) Page 9 of 14 ❑ [503.3.2] Hydronic system controls. Hydronic systems of at least 300,000 Btu /hour design output capacity supplying heated and chilled water to comfort conditioning systems include controls that meet the requirements of Section 503.4.3. Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A • ❑ [503.4.1] Supply air economizers are 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: Exceptions: o Systems utilizing water economizers that are capable of cooling supply air by direct or indirect evaporation or both and providing 100 percent of the expected system cooling load at outside air temperatures of 50 degrees F dry bulb /45 degrees F wet bulb and below o Cooling equipment less than 54,000 Btu/hour total cooling capacity. The total capacity of all such units without economizers shall not exceed 240,000 Btu/hour. per building area served by one utility meter or service, or 10 percent of its total installed cooling capacity, whichever is greater o Systems where internal /external zone heat recovery is used o Systems used to cool any dedicated computer server room, electronic equipment room or telecom switch room having a water economizer system capable of cooling air by direct and /or indirect evaporation and providing 100 percent of the expected systems cooling load at outside air temperatures of 45 degrees F dry bulb and 40 degrees F wet bulb and below o Systems using condenser heat recovery, up to the cooling capacity used to provide condenser heat recovery Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A < 54,000 Btuh ❑ [503.4.2] Variable air volume fan control. Individual VAV fans with motors of 10 horsepower or greater are driven /controlled in the manner specified by this section. Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [503.4.3] Hydronic systems controls. The heating of fluids that have been previously mechanically cooled and the cooling of fluids that have been previously mechanically heated are limited in accordance with Sections 503.4.3.1 through 503.4.3.3. Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [503.4.3.1] Three -pipe system. Hydronic systems that use a common return system for both hot water and chilled water are not installed. Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A 440 -4915 (4 /11 /COM) Page 10 of 14 ❑ [503.4.3.2] Two -pipe changeover system. Systems that use a common distribution system to supply both heated and chilled water are designed to allow a dead band between changeover from one mode to other; are provided with controls that will allow operation in one mode for at least four hours before changing over to the other mode; and are provided with controls that allow heating and cooling supply temperatures at the changeover point. Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [503.4.3.3] Hydronic (water loop) heat pump systems. Hydronic heat pump systems comply with Sections 503.4.3.3.1 through 503.4.3.3.3. Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [503.4.3.3.1] Temperature dead band. Hydronic heat pumps connected to a common heat pump water loop with central devices for heat rejection and heat addition have controls that are capable of providing a heat pump water supply temperature dead band of at least 20 degrees F between initiation of heat rejection and heat addition by the central devices. Exception: o Where a system loop temperature optimization controller is installed and can determine the most efficient operating temperature based on real time conditions of demand and capacity, dead bands of less than 20 degrees F shall be permitted Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [503.4.3.4] Part load controls. Hydronic systems supplying heated or chilled water to comfort conditioning systems include controls specified in the requirement details. Exception: o Dedicated equipment circulation pumps designed to meet minimum flow requirements established by the manufacturer, such as boiler or chiller auxiliary circulation pumps Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [503.4.3.6] Heating and cooling water pump control. Water circulation systems serving heating coil(s) or cooling coil(s) have controls that lock out pump operation when there is no demand. The pumps will shut off based on the outside air lock out temperatures. Exceptions: o Industrial process and humidity control process o Hot water re -heat for terminal units o Pumps serving water side economizer functions, systems Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A 440 -4915 (4 /11 /COM) Page 11 of 14 ❑ [503.4.3.7] Tower flow turndown. Open cooling towers configured with multiple condenser water pumps are designed so that all cells can be run in parallel with a turndown flow as described in section requirements. Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ti ❑ [503.4.5.4] Heat recovery for reheat and service water heating. Where the total installed heat rejection capacity of water - cooled chillers exceeds 6,000 kBtu /hour and the combined design reheat, dual duct heating, and service water heating load exceeds 1,000 kBtu/hour, condenser heat recovery is installed, reheat and dual duct coils are hydronic and required heat recovery is properly sized. Additional details apply. Exceptions: o Facilities that provide 25 percent of their combined design service water heating, reheat and Dual Duct heating from site solar or site recovered energy o For fans six 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 Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [503.4.4] Heat rejection equipment fan speed control. Each fan powered by a motor of 7.5 hp or larger has the capability to operate that fan at two- thirds of full speed or less, and has controls that automatically change the fan speed. Exception: o Factory- installed heat rejection devices within HVAC equipment tested and related in accordance with Tables 503.2.3(6) and 503.2.3(7) Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [503.4.5] Requirements for complex mechanical systems serving multiple zones. Complex systems serving multiple zones comply with Sections 503.4.5.1 through 503.4.5.4. Additionally, supply air systems serving multiple zones are VAV systems which are designed and capable of, being controlled to reduce primary air supply to each zone, the volume of air that is reheated /re- cooled /mixed in peak heating demand, and modulate airflow between deadband and full'heating /cooling. -. Exceptions: o Zones where special pressurization relationships or cross - contamination requirements are such that VAV systems are impractical o Zones or supply air systems where at least 75 percent of the energy for reheating or for providing warm air in mixing systems is provided from a site - recovered or site -solar energy source o Zones where special humidity levels are required to satisfy process needs o Zones with a peak supply air quantity of 300 cfm or less and where the flow rate is less than 10 percent of the total fan system supply airflow rate o Zones where the volume of air to be reheated, re- cooled or mixed is no greater than the volume of outside air required to meet requirements of the Oregon Mechanical Specialty Code (OMSC) o Zones or supply air systems with thermostatic and humidistatic controls capable of operating in sequence the supply of heating and cooling energy to the zones(s) and which are capable of preventing reheating, recooling, mixing or simultaneous supply of air that has been previously cooled Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A 440 -4915 (4 /11 /COM) Page 12 of 14 ❑ [503.4.5.1] Single duct variable air volume (VAV) systems, terminal devices. Single duct VAV systems use terminal devices capable of reducing the supply of primary supply air before reheating or re- cooling takes place. Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [503.4.5.2] Dual duct and mixing VAV systems, terminal devices. Systems that have one warm air duct and one cool air duct use terminal devices which reduce the flow from one duct to a minimum before mixing of air form the other duct takes place. Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A ❑ [503.4.5.3] Supply -air temperature reset controls. HVAC systems serving multiple zones, including Dedicated Outside Air Systems include controls that automatically reset the supply -air temperature in response to representative building loads, or to outdoor air temperature. Exceptions: o Systems that prevent reheating, recooling or mixing of heated and cooled supply air o 75 percent of the energy for reheating is from site - recovered or site solar energy sources Location in plans /specs where compliance can be identified (enter NA if not applicable): N/A SECTION 6: COMPLIANCE STATEMENT Compliance statement: The proposed mechanical design represented in this document is consistent with the building plans, specifications and other calculations submitted with this permit application. The proposed mechanical systems have been designed to meet the Oregon Energy Efficiency Specialty code requirements in COMcheck Version 3.8.0 and to comply with the mandatory requirements in the requirements checklist. Matthew D. Todd, P.E. / December 3, 2012 Name — Title Signature Date 440 -4915 (4/1 1 /COM) Page 13 of 14 Project notes: 1. Systems Equipped with Low Ambient Controls for year round cooling capability 2. Units with Lead/Lag Controls for limited redundancy of systems 6. a 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 440-4915 (4/11/COM) Page 14 of 14