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fUIgX c ( Lfrrz s1cOc2 7 Form 4a Project Name: AI '4[2.cQer Page: 1 U.c 2S SYSTEMS - GENERAL • Applicability Discussion of qualifying Plans/Specs exceptions on page 4-14 Show complince by including a drawing sheet,detail number,specification section and subparagraph. 1. Applicablity (Section 1317) Is this form required? Xi Form Required. Complete form if a new HVAC system is being installed, or components of an existing HVAC system are being replaced (I.e., equipment, controls, ductwork, and insulation.) ❑Exception. The building or part of the building qualifies for an exception from HVAC code requirements. Applicable code exception is Section 1317.1. Portions of the building that qualify: Area:I Exception 1 ❑ 2 ❑ 3 ❑ Areal Exception 1 0 2 3 I Area:! I Exception 1 ❑ 2 ❑ 3 ❑ ❑ Form Not Required. This project does not contain work required to comply with code. 2. Simple or Complex Systems (Section 1317.9 or 1317.10) ❑ Simple System. Building contains only Simple HVAC System(s). Complete this form (4a)and equipment efficiency worksheets as required. Form 4b is not required. Complex System. Project includes a Complex System. Complete this form (4a), form 4b and equipment efficiency worksheets as required. 3. System and Zone Controls (Section 1317.4.1 and 1317.4.2) • X Complies. All new HVAC systems include at least one temperature control device responding to temperatures within the zones ❑ Exception. HVAC system qualifies for an exception from zone control requirements. The applicable code exception is Section 1317.4.2, Exception 1 ❑-2 0 Portions of the building that qualify: The plans/specs show compliance in the following locations: 35. M3.11.011.1E.,3.zwi3.2E ! Spac. Stiction 15100 4. Control Capabilities (Sec. 1317.4.2.1) X Complies. Zone thermostats are capable of being set to the temperatures described in Sec. 1317.4.2.1. Where used to control both heating and cooling, zone controls shall be capable of providing a temperature range or deadband of at least 5 degrees F within which the supply of heating and cooling energy to the zone is shut off or reduced to a minimum. ❑Exception. The building qualifies for an exception to the deadband requirements. The applicable code exception is Section 1317.4.2.1 Exception 1 ❑ 2 0 Portions of the building that qualify: The plans/specs show compliance in the following locations: '5tva.c SedriclA 154oc ,;t,05 4-1 • Form 4a Project Name: Page: Z o f 2$ SYSTEMS - GENERAL • • • 5. Off-hour Controls 5.1 Automatic Setback or Shutdown (Section 1317.4.3) Complies. Systems must have at least one of the following features: X Control Setback Complies. Each system is equipped with automatic control capable of reducing energy through control setback during periods of nonuse or alternate use of spaces served by system. ❑ Equipment Shutdown Complies. Each system is equipped with automatic control capable of reducing energy equipment shutdown during periods of nonuse or alternate use of spaces served' by system. HVAC systems with equipment shutdown are equipped with at least one of the following: ❑ Programmable controls (1317.4.3.1 (1)) ❑ Occupant sensor(1317.4.3.1 (2)) ❑ Interlocked to a security system (1317.4.3.1 (3)) ❑ Manually activated timers with 2-hour operation max ❑Exception. The building qualifies for an exception to the requirement for automatic setback or shutdown controls (first set of exceptions) The applicable code exception is Section 1317.4.3 Exception 1 ❑ 2 ❑ The plans/specs show compliance in the following locations: Spec. SethiOH 154100 5.2. Shutoff Damper Controls (1317.4.3.3) ❑ Complies. Each outdoor air supply and exhaust system is provided with motorized dampers or other means of automatic volume shutoff or reduction during periods of nonuse or alternate use of spaces served by system. • Exception. The building qualifies for an exception to the motorized damper requirement. The applicable code exception: Section 1317.4.3.3, Exception 1 XT 2 ❑ 3 ❑ 4 ❑ The plans/specs show compliance in the following locations: 5.3. Optimum Start Controls (Section 1317.4.3.2) >4.Complies. Separate HVAC systems have controls capable of varying start-up time of system to just meet temperature set point at time of occupancy. ❑ Exception. HVAC systems have a design supply air capacity not exceeding 10,000 cfm. The plans/specs show compliance in the following locations: . $ock 15oo 6. Heat Pump Controls (Section 1317.4.4) X No Heat Pump. The plans/specs do not call for a new heat pump ❑ Complies. All new heat pumps equipped with supplementary heaters are controlled to minimize the use of supplemental heat as defined in Section 1317.4.4. The plans/specs show compliance in the following locations: 7. Equipment Performance (Section 1317.5.) ❑ No New HVAC Equipment. The building plans do not call for new electrical HVAC equipment, combustion heating equipment, or heat-operated cooling equipment. IQ Complies.All new HVAC equipment have efficiencies not less than those required by the code. M The following equipment efficiency worksheets are attached: 4b 4c 4d 4e 4f 4g 4h 4i 4j ❑ ❑ ❑ ❑ ❑ ❑ ❑ ]iQ ❑ 4-2 Form 4a Project Name: Page: '; ©F 2S SYSTEMS - GENERAL • 8. Hot Gas Bypass (Section 1317.5) No Hot Gas Bypass ❑ Complies. See allowable amount of hot gas bypass as a percentage of total cooling capacity in table below. Hot Gas Bypass Unit ID Rated Cooling Capacity Capacity Allowable Hot Gas Bypass Rated Cooling Capacity Max Hot Gas Bypass Capacity <240,000 Btu/h 50% >240,000 Btu/h 25% ❑ Exception. Unitary packaged system with cooling capacity no greater than 90,000 Btu/h 9. Economizer Cooling (Section 1317.3) ❑ No Cooling. The building plans do not call for a new fan system with mechanical cooling. Complies. Each new fan system has an air economizer capable of modulating outside-air and return-air dampers to provide up to 100 percent of the design supply air as outside air. ❑ Exception At least one new fan system qualifies for an exception. The applicable code exception is Section 1317.3, Exception 1 ❑2 03 04 05 ❑ 6 ❑ If Exception 3 is selected complete the following: (a) Total cooling capacity of exempt units (b) Total installed building cooling capacity ❑ Complies. Sum of exempt units rated at less than 54,000 btu/hr is <240,000 or a/b < 0.10 (10% of total building cooling capacity). Unit Identifier of exempt units: The plans/specs show compliance in the following locations: 9%-03. Ml.l Spc. cectiok IS-110, 2-0'2 10. Economizer Pressure Relief& Integration (Section 1317.3.1 and 1317.3.2) ❑ No Economizers Required. The project does not contain a new fan system requiring economizers. )Overpressurization Complies. The drawings specifically identify a pressure relief mechanism for each fan system that will relieve the extra air introduced by the economizer. jX(Integration Complies. Economizer is capable of providing partial cooling even when additional mechanical cooling is required to meet the remainder of the cooling load. ❑ Exception. The applicable exception is Section 1317.3.2, Exception 1111 21 The plans/specs show compliance in the following locations: 5fec. Seck-i01.4 15110/2.02. 4-3 • Form 4a Project Name: Page: SYSTEMS - GENERAL • • 11. Duct Insulation and SealingSection 1317.7 & Section( 1317.8) ❑ No Ducts. The building plans and specifications do not call for new HVAC ducts or plenums NI Complies. The plans and specifications call for all air-handling ducts and plenums to be insulated and sealed as required by Sections 1317.7 &1317.8. 12. Piping Insulation (Section 1314) ❑ No New Piping. The building plans and specifications do not call for new piping serving a heating or cooling system or part of a circulating service water heating system. x"Complies. All new piping serving a heating or cooling system or part of a circulating service water heating system complies with the requirements of the Code, Section 1314.1. ❑ Exception. New piping qualifies for exception: Section 1314.1 Exception 1❑ 20 13 Gravity Vent Controls (1317.4.5) ❑ Complies. Stair and shaft vents. Stair shaft vents shall be equipped with motorized dampers that are capable of being automatically closed during normal building operation and are interlocked to open as required by fire and smoke detection systems. ❑ Complies. Gravity hoods,vents and ventilators. All outdoor air supply and exhaust hoods, vents and ventilators shall be equipped with motorized dampers that will automatically shut when the spaces served are not in use. x.Exception.The building qualifies for an exception to the gravity vent controls. The applicable code exception is Section 1317.4.5.2 Exception 1 J&2 ❑ Compliance details in plans/specs: • 14. Dampers (1317.5.5) ,Complies. Motorized outdoor air supply and exhaust air dampers have a maximum leakage rate of 3 cfm/ft2 at 1.0 in w.g. when tested in accordance with AMCA Standard 500-1989. The plans/specs show compliance in the following locations: . r ac • Sea-10 v, I S170, 2.02 15. Service Water Heating (Sec. 1315) ❑ No New Water Heating. The building plans and specifications do not call for new water heaters, hot water storage tanks or service hot water distribution systems. A Complies. All new water heaters, hot water storage tanks or service hot water distribution systems comply with the requirements of the Section 1315. ❑ Exception.The applicable code exception is Section: Exception: Portions of the building that qualify: 16. Distribution Transformers (Section 1316.1) pr: No Distribution Transformers. The plans/specs do not call for new distribution transformers. ❑ Complies. All new distribution transformers comply with efficiency, testing, and labeling requirements of Section 1316.1.1. The plans/specs show compliance in the following locations: 4-4 • Form 4a Project Name: Page: 5 of ZS SYSTEMS - GENERAL •• 17. High Occupancy Ventilation (Section 1203.2.13) jg[Complies. HVAC systems with ventilation air capacities of 1,500 CFM or greater that serve areas having an average occupant load of 20 square feet per person or less from Table 10-A have a means to automatically reduce outside air intake. Identify applicable systems: GMV+no.SWM V-111 t ups. QTt4 The plans/specs indicate where equipment(i.e. carbon dioxide sensor) and sequence is specified: Dwgs. IsAS.2W3.2E f s'fcc. Sacficm 1510o, 2.08 ❑ Exception.MVAC systems are equipped with an energy recovery device with at least 50% recovery effectiveness. ❑ No High Occupancy Systems. Project does not contain an HVAC system as described above 18. Occupancy Ventilation (Section 1203.2) [Complies. Mechanical ventilation systems provide the required amount of ventilation specified in Section 1203.2.1. ❑ Complies. Natural ventilation systems provide the required amount of ventilation designed by a registered architect or engineer as specified by Section 1203.2.4. Attach worksheet 4m. The plans/specs show compliance on the following pages ❑ Exception. The building qualifies for prescriptive natural ventilation. Exception 1[] 2E1 19. Parking Garage Ventilation (Section 1203.2.11) X No Enclosed Garages. The building plans and specifications do not call for enclosed Group S parking garages with a ventilation exhaust rate greater than 30,000 CFM. ❑ Complies. The plans and specifications call for carbon monoxide sensing devices as required by Section 1203.2.11. ❑ Exception. Open parking garages. 20. Swimming Pools, Spas and Hot Tubs (Section 1315.5) No New Pools. The building plans and specifications do not call for new, swimming pools, spas or hot tubs. ❑ Complies. All new swimming pools, spas or hot tubs are equipped with pool cover, pool heater controls and heat recovery as required by Section 1315.5. 21. Fume Hoods (Section 1317.2.1.) X‘No Fume Hoods.The building plans do not call for fume hood systems that have a total exhaust rate greater than 15,000 cfm. Complies. Fume hood systems have at least one of the following features: ❑ Variable air volume hood exhaust and room supply systems capable of reducing exhaust and makeup air volume to 50%or less of design values. ❑ Direct makeup (auxiliary) air supply equal to at least 75% of the exhaust rate, heated no warmer than 2° F below room set point, cooled to no cooler than 3° F above room set point, no humidification added, and no simultaneous heating and cooling used for dehumidification control. ❑ Heat recovery systems to precondition makeup air from fume hood exhaust in accordance with 1318.3- Exhaust Air Energy Recovery, without using any exception. The plans/specs show compliance in the following locations: 4-5 • Form 4a Project Name: Page: og' 25 SYSTEMS - GENERAL • 22. Kitchen Hoods (Section 1317.11) _+ Not Regulated. The plans/specs do not call for any new kitchen hoods with exhaust capacity greater than 5,000 cfm each. Complies. All new kitchen hoods with a total exhaust capacity greater than 5,000 cfm have at least 50 percent of the required makeup air; (a) unheated or heated to no more than 60°F; and (b) uncooled or evaporatively cooled. The plans/specs show compliance on the following pages 23. Outside Heating Systems (Section 1317.12) js No Outside Heating Systems.The plans/specs do not call for new permanently installed heating systems outside the building. 0 Complies. All new permanently installed outside heating systems are radiant gas fired systems controlled by an occupancy sensor or timer switch as required by Section 1317.12. 1110 4-6 • Form 4b Project Name: Page: 7 o.- 25 COMPLEX HVAC SYSTEMS IDApplicability 1. Simple or Complex Systems (Section 1317.9, 1317.10 and 1318) Discussion of qualifying exceptions in Note: This form is required for complex systems only. If your plans qualify as a simple system instructions section. as defined by the code,this form is not required. Fan Motor 2. Air Transport Energy (Section 1318.4.2 as Table 13-U) Energy ❑ Not Regulated. Each HVAC system does not have total fan nameplate horsepower of 7.5 HP or See Table 13-L,page greater(includes the sum of all supply, return,and exhaust fans operating at design conditions) 4-24 for maximum - Complies.The energy demand of all HVAC fan systems meets code requirements. Complete horse-power allowed. q p and attach Worksheet 41. ❑ Exception. Section 1318.4.2, Exception 1 0 2 3❑ Portions of the building that qualify: ?moat Eviniu.sl an 17-1 x,1,4 6 Variable Air and Liquid 3. Variable Speed Drives (Section 1317.10.3.1) Flow ❑ Not Regulated.The building plans or specifications do not call for fan and pump motors 10 horsepower and greater that serve variable-flow air or liquid systems. X Complies.All fan and pump motors 10 hp and greater which serve variable-flow air or liquid systems are controlled by a variable-speed drive. exception.The building qualifies for an exception to the variable-speed drive requirement. Applicable code exception is Section 1317.10.3.1, Exception 1 ❑ 2. 30 The plans/specs show compliance in the following locations: putui. Mt. Cooling Tower 4. Cooling Tower Fans (Section 1317.5.4.2) Fans IX No Cooling Tower There is no cooling tower in this project. ❑ Complies.Cooling tower fans have control devices that vary flow by controlling leaving fluid temperature or condenser temperature/pressure of the heat rejection device. The plans/specs show compliance in the following locations: • 5. Simultaneous Heating and Cooling (Section 1318.2.1) ❑ No Cooling. The HVAC system has no cooling. yi Complies. Controls prevent reheating, recooling or mixing of mechanically heated and mechanically cooled air. Exception. Code exception is Section 1318.2.1, Exception 1 N( 2❑ 30 40 5 ❑ If exception 1 is used, complete and attach Worksheet 4k The plans/specs show compliance in the following locations: 5r ec. 5eekiov.. 15aoo 6. Large Volume Fan Systems (Section 1318.4.2.3) X Not Regulated.The building plans or specifications do not call for fan systems over 15,000 CFM that serve a single zone and function for the purpose of temperature control. Complies. Fan systems are equipped with variable frequency drive or two speed motor to reduce airflow as required by Section 1318.4.2.3. ❑ The plans/specs show compliance in the following locations: r ' 7. Electric Motor Efficiency (Section 1317.10.3 8s Table 13-T) CI Not Regulated.There are no NEMA Design A&B squirrel cage,T-frame induction, permanently Exceptions wired polyphase p of hase motors of one horsepower or more which serve built up HVAC systems. Discussion of qualifying exceptions Complies. The efficiency of all regulated motors meets code requirements. in instructions ❑ Exception. Section 1317.10.3, Exception: Exception 10 2❑ section. Portions of the building that qualify: The plans/specs show compliance in the following locations: , Secr;oM ISocoi2,03 4-7 • g c> 25 Worksheet 41 Project Name: AIR TRANSPORT ENERGY • Complete one worksheet for each fan system>7.5 horsepower.Fan system horsepower is the sum of the nameplate motor horsepower of all supply,return,and exhaust fans(including series fan-powered terminal units) that operate during design conditions. Fan System ID: g.TU- I Areas Served: POD A— M A I!J Maximum Fan Type(Supply, Nameplate Motor Fan Identifier Return,Exhaust,Series Constant HP Allowed(from (Tag) VAV) CFM Volume or VAV Nameplate Motor HP Table 13U _5).11:4501t4 , at 600 VAV — 30 grAMPOSOVORENEff iWatgaggENSPWM 00101.1106 ./g gif,a55MPOEVhe'":027,MP • Total System Sum of Supply Fan CFM, 1'71(0,00 /c 111111 Additional Pressure Drop Credit.Complete the section below if system contains filtration with a combined efficiency of 90%or greater(ex.,30%prefilter+60%final filter)or heat recovery. X Manufacturer's product data sheet(s)is attached and design values are shown in plans/specs in the following locations Dt M\.1 Filtration Heat Recovery Adjusted Maximum Constant Volume or Pressure Drop, Pressure Drop, Allowed Nameplate Total Nameplate HP Supply CFM VAV in.w.c. in.w.c. HP (from above) For Constant Volume Systems: Adjusted Maximum HP=CFM*(P.D.+3.1) 3718 For Variable Volume Systems: Adjusted Maximum HP=CFM*(P.D.+4.6) 3718 Where: CFM= The maximum design supply air flow in cubic feet per minute Filtration Pressure Drop= Combined pressure drop of all filtering systems at design airflow rates when filters are clean. Heat Recovery Pessure Drop= Pressure drop of heat recovery system at design airflow rates. • 4-21 `1 0C 25 Worksheet 41 Project Name: AIR'TRANSPORT ENERGY 1111 Complete one worksheet for each fan system>7.5 horsepower.Fan system horsepower is the sum of the nameplate motor horsepower of all supply,return,and exhaust fans(including series fan-powered terminal units) that operate during design conditions. Fan System ID: (R1 U--2 Areas Served: POt A- ry WE Maximum Fan Type(Supply, Nameplate=Motor. Fan Identifier Return,Exhaust,Series Constant Hp (6' (Tag) VAV) j CFM Volume or VAV Nameplate Motor HP 111 SvIP01‘1 _!0 020 JAV 16 • P�.Gr — ✓ .ter.. Total System Sum of Supply Fan CFM /0,OZO I Additional Pressure Drop Credit.Complete the section below if system contains filtration with a combined efficiency of 90%or greater(ex.,30%prefilter+60%final filter)or heat recovery. .OJ Manufacturer's product data sheet(s)is attached and design values are shown in plans/specs in the following locations Owl'• MI . ( Filtrationt. ecover AdjustedMaximum or Pressure DO. ure Drop, Allowed Nameplate Total Nameplate HP Supply CFM t - VAV in.w e :w c. HP (from above) For Constant Volume Systems: Adjusted Maximum HP=CFM*(P.D.+3.1) 3718 For Variable Volume Systems: Adjusted Maximum HP=CFM*(P.D.+4.6) 3718 Where: CFM= The maximum design supply air flow in cubic feet per minute Filtration Pressure Drop= Combined pressure drop of all filtering systems at design airflow rates when filters are clean. Heat Recovery Pessure Drop= Pressure drop of heat recovery system at design airflow rates. 4-21 1 jo o•E 25 Worksheet 41 Project Name: AIR TRANSPORT ENERGY 41111 Complete one worksheet for each fan system>7.5 horsepower.Fan system horsepower is the sum of the nameplate motor horsepower of all supply,return,and exhaust fans(including series fan-powered terminal units) that operate during design conditions. Fan System ID:1 R N.4 Areas Served: 'Pot g LG Maximum Fan Type(Supply, ° Nameplate Motor Fan Identifier Return,Exhaust,Series ,, Constant a 4 HP Allowed(from (Tag) VAV) AFM . . Volume or VAT'Nameplate`Motor44P 4,47g::Table13U at- 13 t3.t?v k.01V I I _ _ Total System Sum of Supply Fan CFM — x'70 d f- _� e Additional Pressure Drop Credit.Complete the section below if system contains filtration with a combined efficiency of 90%or greater(ex.,30%prefilter+60%final filter)or heat recovery. Manufacturer's product data sheet(s)is attached and design values are shown in plans/specs in the following locations 17w17. 1M1,. I x u Heat Reeov : s d)justed Maximum. -ress a Abp Pressure llowed,Nameplate Total Nameplate HP tia•uppYy CFM " A �:, �A., m vl�' H.=.... „ HP (from above) For Constant Volume Systems: Adjusted Maximum HP=CFM*(P.D.+3.1) 3718 For Variable Volume Systems: Adjuster Maximum HP=CFM*(P.D.+4.61 3718 ��Where: CFM= The maximum design supply air flow in cubic feet per minute Filtration Pressure Drop= Combined pressure drop of all filtering systems at design airflow rates when filters are clean. Heat Recovery Pessure Drop= Pressure drop of heat recovery system at design airflow rates. 4-21 � 11 of 25 Worksheet 4l Project Name: AIR TRANSPORT ENERGY • 41111 Complete one worksheet for each fan system>7.5 horsepower.Fan system horsepower is the sum of the nameplate motor horsepower of all supply,return,and exhaust fans(including series fan-powered terminal units) that,operate during design conditions. Fan System ID: le...Tu.—(p Areas Served: Pap Fan Type(Suppe , " NjJ for h1de ifier Return Exhausfi;t1Series r n tlo from � " e g) �.. VAV)4 _ "- CFiUI_... Plurrie.orV Nameplate Motor HP Tab - 3U Suonty l61f0 3S VAV 30Y;giiffi o , � M • b r Total System Sum of Supply Fan CFM Additional Pressure Drop Credit.Complete the section below if system contains filtration with a combined efficiency of 90%or greater(ex.,30%prefilter+60%final filter)or heat recovery. MManufacturer's product data sheet(s)is attached and design values are shown in plans/specs in the following locations 0417 fit•1 k usted Maxi f serdamern Pi;�tstai Nameplate HP a N uR<yrCFM - '(from above) y�/J1' ,. _ � >€ � . fin. ,: .,'� � •„� r � For Constant Volume Systems: Adjusted Maximum HP=CFM*(P.D.+3.11 3718 mow. For Variable Volume Systems: Adjusted Maximum HP=CFM*(P.D.+4.6) 3718 Where: CFM= The maximum desi supply air flow in cubic feet per minute Filtration Pressure Drop= Combined pressurrr..b.f all filtering systems at design airflow rates when filters are clean Heat Recovery Pessure Drop= Pressure drop - covery system at design airflow rates. 4111. 4-21 ) - 2 Ilfr R7u-`t -1 ; - (Carrier) UNIT 48AJ,AK,AW,AY.. 035. .. . ....040 060 •- NOMINAL.CAPACITY(tons) 35 40 -_ :.. - V. BASE UNIT SeeOperating Weights f,°•7': OPERATING WEIGHT(Ib) P 9 Table - r 1 COMPRESSOR ._. • Quantity...Type(Ck£1,Ckt 2 1 u.SR'812AT,. 2...SR'942AT/2...SM125 11•.SM16Q 1..SM175/ 2...SM125/Y...SM125,i 1...SR'942AT/2...Sf'1'942AT 1...SM175 1..SM160,1.:SM175 Number of Refrigerant Circuits 2 2 2 - Oil(oz)(CM 1,Old 2) ..... Precharged_. Precharged REFRIGERANT TYPE Precharged Precharged - Operating Charge(Ib-oz) R-22 Circuit 1 • 33-0 34-8 56-8 77-0 ,• - _ Circuit 2 :. 38-0 I. 45-8 I. 52-8 75-0 • CONDENSER COILFins/in. 4. "C d 3/ h Cross-Hatce8opper Tubes,Aluminum Lanced,Aluminum Pre-Coated,or Copper Plate Fins Quantity .. 2 Rows_--. 1 .... ...15 -2 2 Total. _ 33.3 15 215/4 - - 4...15 Face Area(sq ft) ; 4...15 .. 66.7 CONDENSER FAN - - Propeller Type , Nominal Cfm ' - 14,500 30,000 25,600 38,400 Quantity... Diameter(in.) 2...30 4...30 - Motor Hp I 4...30 6...30' ... 1 1 1 EVAPORATOR COIL Cross-Hatched Copper Tubes,Aluminum Plate Fins Tube Size(in.) 1 PP 1/2 Rows...Fins/in. 6..16 4 .16 4 1/2.17 - Total Face Area(sq ft) - 31.3 i.. 3.1.3 I - 631.36.. 48.1 EVAPORATOR FAN Centrifugal T e Quantity...Size(in.) -. 2...20 X 15 2...20 X 15 9 YP 2...20 X 15 3...20 X 15 Type Drive Belt Belt Belt Nominal Cfm 14,000 16,000 18,000 24,000 Motor Hp , - 1520 25 15 20 25 20 25 30 25 30 40 Motor Frame Size. • 254T I 256T 284T 254T I 256T I 284T 256T I 284T 286T 284T I 286T8a324T Motor Bearing.Type Ball Ball Maximum Allowable Rpm 1300 1300 1300 1200 -? Motor Pulley Pitch Diameter 5.1 ;5.7 6.2 5.3 '5.7 7.5 5.76.2 6.7 5.3 • ( 5.9 6.5 Nominal Motor Shaft Diameter(in.) 15/8 -15/8 17/8 15/8 15/8 17/8 18/8 _I 17/8 17/8 17/8 I 17/8 21/8 Fan Pulley Pitch Diameter(in.) 8.7 8.7 :8.7 9.5 9.5' 11.1 9.5 9.5 9.5 9.1 I 9.5 9.5 Nominal Fan Shaft Diameter(in.) 115/16 115/18 115/18 115/18 Belt Quantity - 2 2 2 • 2 2 2 2 2 2 3 3 3 Belt Belt Type: 5VX500`' 5VX530 5VX550 5VX530 5VX550 5VX590 5VX550 5VX570 5VX570 5VX530 5VX550 5VX570 55 57' Pulley Centerr Line Distance(in.) 15.07.9 15.0-17.9 15.0-17.9 15.0-17.9 15.0-17.9 14.6-17.6 15.0-17.9 14.6-17.6 14.6-17.6 15.2-317.5. 14.7-17.2 142-17.0 Factory.Speed Setting(rpm) 1025. 1147 1247 976 1050 1182 .1050 1142 1234 1019 1087 1197. FURNACE SECTION Supply Line Pressure Range 5.0-in.wgmin/13.5-in.wgmax. Rollout.Switch Cutout Temp(FYI' _ -225 225 ; - -. .. 225.. _. - 225 Burner Orifice Diameter(in...drill size)Natural-Gas Std- - - Std 119...34120...31 Liquid Propane Alt - .120...31 .120...31 .089...43 .096...41 .096...41 .096...41 Thermostat Heat Anticipator Setting 1 Stage 1(amps). _. 0.1 0.1 0.1. 0.1. Stage 2(amps) Gas Input(Btuh)Stage 1 - - - ' Low Heat/Hi h Heat) 262,500/394,000 30,000/600,000 582,000/873,000 ( 9 300,000/600,000 Stage 2..... . _ (Low Heat/High Heat) 350,000/525,000 40,000/800,00 400,000/800,00 776,000/1,164,000 Efficiency(Steady State)(%) 82 82 82 82 :4 Temperature Rise Range 15-45/35-65 10-40/3-60 10-40/30-60 10-40/30-60 Manifold Pressure (in.wg) Natural Gas Liquid Propane Stdt3.5 3.5 3 5 3.3 t - Gas Valve Quantity 3.5 25- -3.5 3.3 2 3 HIGH-PRESSURE SWITCH(psig) Cutout - Reset(Auto.) 320 326 20 426 426 RETURN-AIR FILTERS 320 320 ;-'"I':- y, Quantity...Size(in.) 10...20 x 24 10...20 x 24 10...20 x 24 16...20 x 24 : OUTDOOR-AIR FILTERS Quantity...Size(in.) 8...16 x 25 x 2 I 72...16 x25 x2 4...20x25x2 6...20x25x2 POWER EXHAUST Direct Drive,Single-Phase Motors(Factory-Wired for High Speed Operation),Forward-Curved Fan Wheels with Backdraft Dampers on Each Fan Housing Motor,Quantity. Hp 4...1 I 6 1 • -- Fan,Diameter...Width(in.) 11 x 10 11 x 10 LEGEND Al - Aluminum Cu - Copper `Sizes 020-030:Circuit 1 uses the lower portion of condenser coil,Circuit 2 uses the upper portion. Sizes 035-060:Circuit 1 uses the left condenser coil,Circuit 2 the right All units have inter- s' twined evaporator coils. wr;t:' tRollout switch is manual reset. ,-ice- ys.:,. IV 7 1625 Worksheet 4k Project Name: Page: t3 o 25 Simultaneous Heating and Cooling 0 -Additional pages may be necessary if building has more terminal units than there are lines in this form. Complete this form to verify compliance with Section 1318.2.1 exception 1. ' - Termrna ff p„,, abQA Volume(VAV)Box)CFM Design Conditi" - � 1 Requ tram i : a/! )e1,r ;. i:,1-'47,4?t": ' ..„,172.:1;.! .,te'..4.'7,..-`,,,,'t',..,,!1-_,;:ivkati.,:i1; ,-..j.,,..;„--,,,,,A,,.....,..:--;-,E.ii:-,;--emiii e'ritIor �r Max:'eating i 'ei e , , : Description/Location erne+ Ilii" Airflow-CFM ax., f;.e n ila + 4 OUCFM• \/64\1""1►s to-36 1 5o 450 390 Igi 0 0 0 tis et 3S ((os 37't 140 0 a 0 0 1 83Y' goo 33g 335' 0 0 J8 ❑ 19 t t36 t 35 LtStt 210 0 X ❑ ❑ to Q03 rdoo 3-2.1 215 0 a 0 0 tt= ?4i I16o 3'.{3 2.i!,5 El ❑ ❑ 0 icy it 5$ -?oo 1.(,(o1 380 0 X 0 0 I H 2stc( 2.086 1oq£i, 220 0 Ad 0 0 is 184 2-b00 ei0 3-,5" rgt 0 0 0 t 3 54'1 I too 3'3o 136 ® 0 ❑ 0 It- 21 c5, ZSco 960 tkt'• , I 0 E 0 0 \10.V- ?.ta I10tf t614o f°t2 3qo JX 0 0 0 2(33 c(5S Tito 423 36o gr, 0 ❑ 0 2c, 1113 (o012 (-145 2-10 0 X 0 0 2P ,t-r7 12o0 acts 31S 0 ❑ ❑ 2 , II 34f (v5o 'AS's 32-t 0 iliz 0 0 • u e 55 11.00 302 3o 0 > 0 0 2 23 9 18ba 414t3 52s= 0 0 ❑ 2N lobi 11460 4313 375 I ❑ 0 ❑ VAv- 41N. 99't 1410 14'23 375 X 0 0 0 4B 4452. 115o 71?:t %tb5 0 X 0 0 4c `1'`r4- Ili-to tf23 378 o o ❑ `ft) Sic) 35o 13(2 I bS ❑ ❑ 0 tt `tE '1/Y i 100 30cg 375' 0 X 0 0 'IF q44- 12.00 3c(13 375 ❑ IF1. ❑ ❑ `{'G 2J#O 2oo i(b i 10 0 0 0 Asi. if ft 1 1305 3ctt)- 375" 0 K ❑ 0 yT 2333 f t oo a33 4f00 0 4 ❑ ❑ LtJ '11(t 13o5 3k8 37.5" 0 12 0 0 414 14 c 10% 348 375 0 0 0 41- 57o 300 '2.2sa, 165 ❑ 0 0 iit4 11(9Y 11145 't(9(* 310 0 Ji' 0 0 VikV--6A 't 13 to 423 378 ig 0 0 0 103 2cv0 I 8tao 4965 D 0 0 4-20 Worksheet 4k Project Name: Page:pi-4 ?c, Simultaneous Heating and Cooling 111111 .Additional pages may be necessary if building has more terminal units than there are lines in this form. Complete this form to verify compliance with Section 1318.2.1 exception 1. Terminal Unit(Variable Air Volume(VAV)Box)CFM Desi.n Conditions Required Information Compliance Method Max. Cooling Occupancy Maximum Terminal Unit ID or Sq.ft Area Airflow- Max.Heating Ventilation- 30%of 0.4 CFM Occupancy Airflow is Description/Location Served CFM Airflow-CFM CFM Max per sq.ft Ventilation <300 CFM hc. 85o t COO `to 33n ❑ IN ❑ ❑ 6 D 9ct`f t Lilo 423 315 g ❑ ❑ ❑ 6E CM j4jo 423 375 1 ❑ ❑ ❑ 6F i053 logo 141 2530 ❑ R ❑ ❑ 66 4y 1S4o 471 375 g ❑ ❑ ❑ 6 H 7411 1.3o9 3a8 375 ❑ IN' ❑ ❑ 6I V`1'6 /2.45 les$ 685 ❑ Tiff ❑ ❑ 6 J 144 i3os- 3q83375 El ❑ ❑ i7 g. 9'4`f t 305 3t8 -15 ❑ X ❑ ❑ L (650 600 060 2‘o ❑ X ❑ ❑ totA Ire(- 1410 't2'3 375 1:K ❑ ❑ ❑ - L ?o 4So I o ❑ Cgi ❑ ❑ ❑ ❑ ❑ ❑ AL-ref-SATE BOXES ❑ ❑ ❑ ❑ t _ 1C) 3c0 1410 14.O ❑ ❑ IX ❑ 2C 2.¶12-ill 24 6° i 192 5S6 ❑ K ❑ ❑ O ifI- t 61g Soo 672 ElCI 6Z 2687 15ov 1075 ?� ❑ X Al ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ Cl ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ 4-20 Form 4b Project Name: Page: f 5 25 COMPLEX HVAC SYSTEMS 9. VAV System Static Pressure Reset Controls (Section 1318.2.3) ❑ Not Regulated.The building plans or specifications do not call for a VAV system controlled by a static pressure sensor or direct digital control of individual zone boxes. Ig( Complies.The system static pressure set point automatically resets to the lowest point possible while still providing the required air flow to the zones with the greatest demand. O Exception. Section 1318.2.3, Exception 1❑ 2 0 The plans/specs show compliance in the following locations: Sre. se,v,0u41,,90p -Lob icti,c 10. VAV Terminal Units (Section 1317.4.2.1) O Not Regulated. Project does not contain VAV terminal units. Se Complies.VAV terminal units are programmed to operate at the minimum airflow setting without addition of reheat when the zone temperature is within the set deadband. ❑ Exception. Section 1317.4.2.1, Exception 10 2❑ The plans/specs show compliance in the following locations: Spec.SockkoA. 140012A4 3"t.03 11. Supply-Air Temperature Reset Controls (Section 1318.2.5) Not Regulated.The building plans or specifications do not call for multiple zone HVAC systems. ❑ Complies. Multiple zone HVAC systems include controls that automatically reset the supply-air temperatures in response to building loads or outside air temperature. ❑ Exception.The building qualifies for an exception to the supply-air reset controls requirement. Applicable code exception is Section 1318.2.5, Exception 1 ❑ 20 30 The plans/specs show compliance in the following locations: 12. Chilled and Hot Water Temperature Reset Controls (Section 1318.2.4) O Not Regulated.The building plans or specifications do not call for chilled or hot water systems with a design capacity exceeding 300,000 Btu/hr. Complies.Chilled and hot water systems include controls that automatically reset supply water temperatures by representative building loads or by outside air temperature. • 0 Exception.The building qualifies for an exception to the chilled and hot water reset controls requirement. The applicable code exception is Section 1318.2.4 Exception 1❑ 2 0 The plans/specs show compliance in the following locations: Spec sa k c ic`100 13. Separate Air Distribution Systems (Section 1318.2.7) X Not Regulated.The building plans or specifications do not call for zones with special process temperature or humidity requirements. ❑ Complies.Separate air distribution systems serve zones with special process temperature or humidity'requirements from those zones serving only comfort conditions,or supplementary control provisions are included so that primary systems can be specifically controlled for comfort purposes only. ❑ Exception.The building qualifies for an exception to the separate air distribution systems requirement. The applicable code exception is Section 1318.2.7 Exception 1❑ 2❑ Identify zones with special process requirements The plans/specs show compliance in the following locations: 14. Zone Isolation Controls (Section 1318.2.6) O Not Regulated.The building plans or specifications do not call for HVAC systems serving multiple occupancies or floors with 240,000 Btu/hr or greater cooling capacity,or 300,000 Btu/hr or greater heating capacity. kl Complies.HVAC systems serving multiple occupancies or floors with 240,000 Btu/hr or greater cooling capacity, or 300,000 Btu/hr or greater heating capacity are equipped with isolation devices capable of automatically shutting off the supply air to and from each isolated area. Each isolated area is controlled independently and satisfies temperature setback(Section 1317.4.2)and optimum • start control requirements. The central fan system air volume is reduced through fan speed reduction. The plans/specs show compliance in the following locations: (tat W. ` is toN vb1'10 4-8 Form 4b Project Name: Page: a(, 6C—2-c COMPLEX HVAC SYSTEMS 15. Humidity Controls (Section 1318.2.2) ,t No Moisture Added to Building.The building plans do not call for means to add moisture to maintain specific humidity levels. ❑ Complies.All new humidity control systems are equipped with a humidistat when required. All humidifier preheating devices have an automatic value to shut off preheat when humidification is not required. The plans/specs show compliance in the following locations: 16. Hydronic System Controls (Section 1318.2.8) ❑ No Hydronic System.The building plans or specifications do not call for a new hydronic system. iNt Complies.The hydronic system complies as follows: 15.1 Variable Flow Controls(Section 1318.2.8.4) .System does not have a 10 hp or greater motor CI Complies. System has controls capable of varying pump flow The plans/specs show compliance in the following locations: 15.2 Three-Pipe System (Section 1318.2.8.1) O System does not have a common return system(a three-pipe system)for both hot water and chilled water 15.3 Two-Pipe Changeover System (Section 1318.2.8.2) ❑System is not a Two-Pipe Changeover System ❑Complies.System is: a. Designed to allow a deadband between changeover from one mode to the other of at least 15°F outside air temperature. b. Designed to operate and provided with controls that will allow operation in one mode for at least four hours before changing over to the other mode. c. Provided with reset controls that allow heating and cooling supply temperatures at the changeover point to be no more than 30°F apart. 1111 The plans/specs show compliance in the following locations: 15.4 Hydronic(Water Loop) Heat Pump System(Section 1318.2.8.3) System is not a Hydronic(Water Loop) Heat Pump System ❑ Complies. Hydronic heat pumps connected to a common heat pump water loop with central'devices for heat rejection(e.g., cooling tower)and heat addition(e.g., boiler) have the following: a. Controls installed capable of providing a heat pump water supply temperature deadband of at least 20°F between initiation of heat rejection and heat addition by the central devices(e.g.,tower and boiler). b. Closed-circuit tower(fluid cooler)has either an automatic valve installed to bypass all but a minimal flow of water around the tower (for freeze protection)or low-leakage positive closure dampers. c. Open-circuit tower installed directly in the heat pump loop has an automatic valve installed to bypass all heat pump water flow around the tower. Open-circuit towers used in conjunction with a separate heat exchanger to isolate the tower from the heat pump loop are controlled by shutting down the circulation pump on the cooling tower loop. d. A two-position valve at each hydronic heat pump for hydronic systems having a total pump system power exceeding 10 hp. The plans/specs show compliance in the following locations: 1 � 4-9 I Worksheet 4a Project Name: Page:1"7 .0.•F 2-5UNITARY AIR CONDITIONER - AIR COOLED uiprnent (a) (b) (,c) (d) (e) Proposed Performance Discussion of equipment p ratings and equipment Capacity Seasonal or Compliance definitions on page 4-19. Equip. ID Model Designation (Btu/h) Steady State Part Load Schedule(A-E) RTk-l Gwrri Q `MA:15.05p it iS',000 9.3 9.S C g-ru-2. Carr‘cr L4353'-247,0o0 0t..3 9.S C (-1 u-3 Cnv.-;¢.r 3/413H6a025t 220, 000 11.2 nit c g-r i Courrlek 4BAr-D04-0 `fu,coo `f.3 9 .`S C gilt-5 Ca-r,-ter' L(f I-hcQ$z96 IRoi 000 11.2 Ina c r--n4-e carries '143E (f)50 59S,ow cr• 3 1.is * C- 1=t.-1 Cavrtur If t,Q1,1B0►13, tZ,3co AC( 11.3 g 75�sc...tki\,4Z Cit.-1 Cowl e4 ?EA-kw-08 (JC-2 Coon!i¢- `f )0,-)Igte t'7, 3oo v).4.. I t•3 B 01-2 Caxriax 381-k©CCbts 4•Table 13-L a,i(owS 0.2- elecAtAC .l-v,,,,.. IPLV tncm4462v's -For awvt-.eject r;e Required kerb' uvMk 5 q Indicate source of information Documentation ARI Unitary Directory,Section AC,page: ARI Applied Products directory,Section ULE,Page: IIIProduct data(Attach data furnished by the equipment supplier,i.e.,"cut sheets') Code Cooling Capacity(btu/h) Minimum Rating Compliance Required Equipment Type �l Schedule Seasonal or Efficiencies Over But not over: Steady State Part Load 0 65,000- na 9.7 SEER Single Package Without a 65,000 135,000 10.3 EER n/a This schedule of A HeatingSection or With Electric equipment efficiencies 135,000 240,000 9.7 EER n/a was reformatted from the Resistance Heat 240,000 760,000 9.5 EER 9.5 IPLV code,Table 13-L. 760,000 - 9.2 EER 9.2 IPLV 0 65,000. na 10'SEER Split System Without a Heating 65,000 135,000' 10.3 EER n/a B Section or With Electric 135,000 240,000 9.7 EER n/a Resistance Heat 240,000 760,000 9.5 EER 9:5 IPLV 760,000 - 9.2 EER 9.2 IPLV 0 65,000'' na 10 SEER Single Package With a Heating 65,000 135,000 10.1 EER n/a C Section Other Than Electric 135,000 240,000 9.5 EER n/a Resistance 240,000 760,000 9:3 EER 9.7 IPLV. 760,000 9.0 EER 9.4 IPLV 0 65,000 na 10 SEER Split System With a Heating 65,000 135,000 10.1 EER n/a D Section Other Than Electric 135,000' 240,000 9.5 EER n/a Resistance 240,000 760,000 93 EER 9.7 IPLV 760,000 9.0 EER 9.4 IPLV E Condensing Unit Only 135,000 - 10.1 EER 11.2 IPLV glikaill4-10 18 25 Performance Summary for RTU-1 Project Name:Alberta Rider ES 03/31/2004 Prepared by: 07:27AM • Part Number: 48AYD05OPSQ611 FA EER(ARI 360) 9.30 IPLV 9.5 Shipping Dimensions: Unit Length: 17'11" Unit Width: 7'10" Unit Height: 6'1" Unit Shipping Weight 6083.0 lb Heating Type Gas Supply/Return Horizontal Application Type Airflow 17600 CFM Altitude 0 ft Cond.Ent.Air Temp 95.0 °F Ent.Air Dry Bulb 76.8 °F Ent.Air Wet Bulb 62.9 °F Ent.Air Enthalpy 28.34 BTU/Ib Lvg.Air Dry Bulb 53.1 °F Lvg.Air Wet Bulb 51.9 °F Lvg.Air Enthalpy 21.30 BTU/1b Gross Cooling Capacity 557.31 MBH Gross Sensible Clg.Cap. 449.95 MBH Compressor Power 42.90 kW Coil Bypass Factor 0.200 Note Standard Coil Used Gas Input(Min) 303.5 MBH Gas Input(Max) 400.0 MBH Gas Output 328.0 MBH Note Low Gas Heat Unit Steady State Eff 82 Temp.Rise 17.3 °F Ext.Static Pressure 1.50 in wg 4 inch Filter 0.05 in wg Selection External Static Pressure 1.55 in wg . Supply Fan Type Forward Curve Supply Fan RPM 1215 Supply Fan BHP 25.8 BHP Supply Fan Motor HP 30.0 hp Electrical Data: Volts-Phase-Hertz 460-3-60 Minimum Voltage 414 Maximum Voltage 508 Comp.Cir.A,No.1 RLA 16 Comp.Cir.A,No.1 LRA 120 Comp.Cir.A,No.2 RLA 16 Comp.Cir.A,No.2 LRA 120 Comp.Cir.B,No.1 RLA 16 Comp.Cir.B,No.1 LRA 120 Comp.Cir.B,No.2 RLA 22.4 Comp.Cir.B,No.2 LRA 175 Condenser Fan Qty 4 Condenser Fan FLA(ea) 3.3 Evap.Fan Motor HP 30 Evap.Fan Motor FLA 40 Power Supply MCA 133.6 Power Supply MOCP 150 Capacity Stages(%Full) Multiple Stage w/HGBP: 16,23,46,46,68,100 • RTUBuilder v1.34 Page 1 of 2 lc? oc25 Performance Summary for RTU-2 Project Name:Alberta Rider ES 03/31/2004 Prepared by: 07:38AM 4111 Part Number: 48AKDO35PQQ611JH EER(ARI 360) 9.30 IPLV 9.8 Shipping Dimensions: Unit Length: 13'9" Unit Width: 7'10" Unit Height: 6'1" Unit Shipping Weight 5366.0 lb Heating Type Gas Supply/Return Vertical Application Type VAV Cooling Airflow 14000 CFM Altitude 0 ft Cond.Ent.Air Temp 95.0 °F Ent.Air Dry Bulb 80.0 °F Ent.Air Wet Bulb 67.0 °F Ent.Air Enthalpy 31.44 BTU/Ib Lvg.Air Dry Bulb 58.6 °F Lvg.Air Wet Bulb 57.5 °F Lvg.Air Enthalpy 24.72 BTU/lb Gross Cooling Capacity 423.00 MBH Gross Sensible Clg.Cap. 323.00 MBH Compressor Power 32.10 kW Coil Bypass Factor 0.232 Note Standard Coil Used Heating Airflow 14000 CFM Heating Ent.Air Temp. 68.0 °F Gas Input(Min) 265.6 MBH Gas Input(Max) 350.0 MBH Gas Output 287.0 MBH Heating Lvg.Air Temp. 87.0 °F Note Low Gas Heat Unit Steady State Eff 82 Temp.Rise 19.0 °F • Ext.Static Pressure 1.50 in wg 4 inch Filter 0.03 in wg Selection External Static Pressure 1.53 in wg Supply Fan Type Forward Curve Supply Fan RPM 1145 Supply Fan BHP 17.9 BHP Supply Fan Motor HP 20.0 hp P.E.Airflow 8000 CFM P.E.Max.Available Ext.Static 0.67 in wg Note High Speed(Pwr.Exh.) Electrical Data: Volts-Phase-Hertz 460-3-60 Minimum Voltage 414 Maximum Voltage 508 Comp.Cir.A,No.1 RLA 11 Comp.Cir.A,No.1 LRA 90 Comp.Cir.A,No.2 RLA 13.5 Comp.Cir.A,No.2 LRA 95 Comp.Cir.B,No.1 RLA 13.5 Comp.Cir.B,No.1 LRA 99 Comp.Cir.B,No.2 RLA 13.5 Comp.Cir.B,No.2 LRA 95 Condenser Fan Qty 2 Condenser Fan FLA(ea) 3.3 Evap.Fan Motor HP 20 Evap.Fan Motor FLA 27 P.E./R.F.Motor FLA 12.6 Power Supply MCA 104.5 Power Supply MOCP_ 125.0 411 RTUBuilder v1.41 Page 1 of 2 2 ) of25 Performance Summary for RTU-4 Project Name:Alberta Rider ES 03/31/2004 Prepared by: 07:24AM SPart Number: 48AKDO4OPPQ611JD EER(ARI 360) 9.30 IPLV 9.5 Shipping Dimensions: Unit Length: 17'11" Unit Width: 7'10" Unit Height: 6'1" Unit Shipping Weight 5825.0 lb Heating Type Gas Supply/Retum Vertical Application Type Airflow 13200 CFM Altitude 0 ft Cond.Ent.Air Temp 95.0 °F Ent.Air Dry Bulb 80.0 °F Ent.Air Wet Bulb 63.2 °F Ent.Air Enthalpy 28.53 BTU/lb Lvg.Air Dry Bulb 54.2 °F Lvg.Air Wet Bulb 51.5 °F Lvg.Air Enthalpy 21.09 BTU/Ib Gross Cooling Capacity 442.27 MBH Gross Sensible Clg.Cap. 367.62 MBH Compressor Power 34.11 kW Coil Bypass Factor 0.202 Note Standard Coil Used Gas Input(Min) 303.5 MBH Gas Input(Max) 400.0 MBH Gas Output 328.0 MBH Note Low Gas Heat Unit Steady State Eff 82 Temp.Rise 23.0 °F Ext.Static Pressure 1.50 in wg 4 inch Filter 0.03 in wg Selection External Static Pressure 1.53 in wg S Supply Fan Type Forward Curve Supply Fan RPM 957 Supply Fan BHP 13.1 BHP Supply Fan Motor HP 15.0 hp P.E.Airflow 11000 CFM P.E.Max.Available Ext.Static 0.11 in wg Note High Speed(Pwr.Exh.) Electrical Data: Volts-Phase-Hertz 460-3-60 Minimum Voltage 414 Maximum Voltage 508 Comp.Cir.A,No.1 RLA 13.5 Comp.Cir.A,No.1 LRA 95 Comp.Cir.A,No.2 RLA 13.5 Comp.Cir.A,No.2 LRA 95 Comp.Cir.B,No.1 RLA 16 Comp.Cir.B,No.1 LRA 120 Comp.Cir.B,No.2 RLA 16 Comp.Cir.B,No.2 LRA 120 Condenser Fan Qty 4 Condenser Fan FLA(ea) 3.3 Evap.Fan Motor HP 15 Evap. Fan Motor FLA 21 P.E./R.F.Motor FLA 12.6 Power Supply MCA 111.1 Power Supply MOCP 125 Capacity Stages(%Full) Multiple Stage w/HGBP: 13,21,43,50,71,100 • RTUBuilder v1.34 Page 1 of 2 zi > Zs Performance Summary for RTU-6 Project Name:Alberta Rider ES 03/31/2004 Prepared by: 07:19AM SPart Number: 48AKE050PRQ611JD EER(ARI 360) 9.30 IPLV 9.5 Shipping Dimensions: Unit Length: 17'11" Unit Width: 7'10" Unit Height: 6'1" Unit Shipping Weight 6597.0 lb Heating Type Gas Supply/Return Vertical Application Type Airflow 16700 CFM Altitude 0 ft Cond.Ent.Air Temp 95.0 °F Ent.Air Dry Bulb 80.0 °F Ent.Air Wet Bulb 63.7 °F Ent.Air Enthalpy 28.90 BTU/lb Lvg.Air Dry Bulb 53.6 °F Lvg.Air Wet Bulb 52.2 °F Lvg.Air Enthalpy 21.47 BTU/Ib Gross Cooling Capacity 558.49 MBH Gross Sensible Clg.Cap. 476.03 MBH Compressor Power 42.92 kW Coil Bypass Factor 0.187 Note Standard Coil Used Gas Input(Min) 607.0 MBH Gas Input(Max) 800.0 MBH Gas Output 656.0 MBH Note High Gas Heat Unit Steady State Eff 82 Temp.Rise 36.4 °F Ext.Static Pressure 1.50 in wg 4 inch Filter 0.05 in wg Selection External Static Pressure 1.55 in wg 1110 Supply Fan Type Forward Curve Supply Fan RPM 1122 Supply Fan BHP 21.6 BHP Supply Fan Motor HP 25.0 hp P.E.Airflow 11000 CFM P.E. Max.Available Ext.Static 0.11 in wg Note High Speed(Pwr.Exh.) Electrical Data: Volts-Phase-Hertz 460-3-60 Minimum Voltage 414 Maximum Voltage 508 Comp.Cir.A,No.1 RLA 16 Comp.Cir.A,No.1 LRA 120 Comp.Cir.A,No.2 RLA 16 Comp.Cir.A,No.2 LRA 120 Comp.Cir.B,No.1 RLA 16 Comp.Cir.B,No.1 LRA 120 Comp.Cir.B,No.2 RLA 22.4 Comp.Cir.B,No.2 LRA 175 Condenser Fan Qty 4 Condenser Fan FLA(ea) 3.3 Evap.Fan Motor HP 25 Evap. Fan Motor FLA 34 P.E./R.F.Motor FLA 12.6 Power Supply MCA 138.7 Power Supply MOCP 150 Capacity Stages(%Full) Multiple Stage w/HGBP: 16,23,46,46,68,100 • RTUBuilder v1.34 Page 1 of 2 22 aF 2 ' ARI* capacity ratings ca��rier,, ilt NET COOLING SOUND UNIT NOMINAL STANDARD. TOTAL II CAPACITY EER• RATING IPLVt .1 48/50HG TONS CFM (Bt WATTS (Bels) 014 12.5 3,800 156,000 13,400 11.6 8.17 13.2' 016 15.0 4,500 182,000 15,800 11.5 8.17 13.7 ... . 10 7f[ -S-l► 020 17.5 5,500 202,000 18,000 11.2 8.17 12.8' kW `'' 2�9 024 _ 20.0 6,000 238,000 21,200 11.2 8.17 12.4 Vit-l 028"" 25.0 7,500 280,000 26,900 10.4 8.46 11.0 00 LEGEND 3. Ratings are based on: Bels - Sound Levels(1 bel.=10 decibels) kip db - Dry Bulb o EER - Energy Efficiency Ratio IPLV - Integrated Part-Load Values t�� wb - Wet Bulb 111 f *Air Conditioning and Refrigeration Institute. "° ������"°""°�� » tIPLV values are calculated based on control configuration T.CTL=2 Cooling Standard:80 F db,67 F wb indoor entering-air tempera- (2 Stage Y1). ture and 95 F db air entering outdoor unit. **Size 028 unit is not listed with ARI,but is tested to ARI standards. IPLV Standard:80 F db,67 F wb indoor entering-air temperature NOTES: and 80 F db outdoor entering-air temperature. kt t1. Rated in accordance with ARI Standards 340/360-93 and 270-95. ' 2. ARI ratings are net values, reflecting the effects of circulating fan 01 heat. ARI HEATING CAPACITIES AND EFFICIENCIES-48HG014-028 PI STANDARD UNITS UNIT. ` HEATING INPUT HEATING INPUT OUTPUT CAPACITY TEMPERATURE STEADY-STATE MINIMUM • 48HG BTUH Stage 2* BTUH Stage 1 BTUH Stage 2 Low Rise(F) High Rise(F) EFFICIENCY% HEATING CFMt D014 250,000 199,000 205,000 15 45 82% 4218 liti F014 296,000 224,000 ' 242,000 25 55 82% 4086 D016 250,000 199,000 205,000 4218 15 45 82% 4977 s E016 365,000 281,000 296,000 25 55 81% F016 400,000 317,000 328,000 25 55 82% 5522 0 ° D020 250,000 199,000 205,000 15 45 82% 4218 1! ^•; E020 365,000 281,000 296,000 25 55 81% 4977 11 F020 400,000 317,000 328,000 25 55 82% 5522 D024 250,000 199,000 ,205,000 15 45 82% 4218 4l E024 365,000 281,,000 296,000 25 55 81% 4977 F024 400,000 317,000 328,000 25 55 82% 5522 li D028 250,000 199,000 205,000 15 45 82% 4218 0 E028 365,000 281,000 296,000 25 55 81% 4977 .: F028 400,000 317,000 328,000 25 55 82% 5522 *All units are 2-stage heat. NOTE: Minimum allowable temperature of mixed air entering the heat 'I tMinimum heating cfm must be maintained to ensure proper heating exchanger during first stage heating is 45 F. There is no minimum operation. mixed-air limitation during second-stage heating. I. 11 VERTICAL SUPPLY UNITS WITH FIELD-INSTALLED LIQUID PROPANE KIT UNIT HEATING INPUT HEATING INPUT OUTPUT CAPACITY TEMPERATURE STEADY-STATE MINIMUM 48HG BTUH Stage 2* BTUH Stage 1 BTUH Stage 2 Low Rise(F) High Rise(F) EFFICIENCY% HEATING CFMt . D014 250,000 207,000 205,000 15 45 82% 4218 dl `~ F014 287,120 248,000 235,438 25 55 82% 3964 D016 - 250,000 207,000 205,000 15 45 82% 4218 E016 365,000 291,000 296,000 25 55 81% 4480 F016 400,000 331,000 328,000 25 55 82% 5522 D020 250,000 207,000 205,000 15 45 82% 4218 E020 365,000 291,000 296,000 25 55 81% 4480 F020 400,000 331,000 328,000 25 55 82% 5522 `s D024 250,000 207,000 205,000 15 45 82% 4218 E024 365,000 291,000 296,000 25 55 81% 4480 F024 400,000 331,000 328,000 25 55 82% 5522 , D028 250,000 207,000 205,000 15 45 82% 4218 E028 365,000 291,000 296,000 25 55 81% 4480 . F028 400,000 331,000 328,000 25 55 82% 5522 *All units are 2-stage heat. NOTES: tMinimum heating cfm must be maintained to ensure proper heating 1. Minimum allowable temperature of mixed air entering the heat operation. exchanger during first stage heating is 45 F There is no minimum mixed-air limitation during second-stage heating. 2. Propane operation requires field-installed accessory kit. 5 _, 1081 I.! r 1 7 • ...i w ;,r...., t= ''-'•,,,,..,•'':-..4 ,, , a::. e.'!'.'".:' a. ,.. �.! airs-.„,. :'. .....n... .�� . ..\M... ..,�., . .t 8 �Y!-,.-�.z ..� , F d::r}h"` .:�H 11'f EW W�.' A lY y K A,Yl 8,.=r.,,,::.. .-'5r y -.. yam, :tl` o F. .. .e.,; 5c`.F . ..u. ,� '41g, n r.,.:. ,., .: A,.> §` ,4r A�. '.rtP4 �'.. y '^,A .�- �r # �,.. .l ,`d "•� !. �2r x s k'� v �_ V. zp,. �,s t• i7, '.w•i ``y„ i� "t a .r. �' '"�: .t •.�,. r �..kmit. � 'a.3 r d. .,t,.� ,.,i+.! �.,• 1-. .tq.r: r�, :� '�, 4Y „t 0 -,, .z :�,- k.s ti / �A ,,qgi 1 a1. i Y'.. L .a/ �a' r 1 401f f SO I P!• t n� �} a. tfy 3 62 9!!!r)A'1? J 9 9A'.7t 3 � r31.!2bb9 ARI*C: 4•E ` High Wall Applications .t`lrc,;: ,,.�_ "<,a '1-'1' ., ct)vy RA;�r0 e ! /39'..,a7;01:,!) ,cz,s :..ri.in¶5(xlla!)i....•1!•,. Y..:. , k c9 rc ..: i,:;€il.U. :s<•. ..,.._. C��'I["'l11.[? , t .., f+,If?fli.i!»...1 ,21C.�s,!!a:i indoor` . ',-„Qutdogr rl F 3 ;;Step Ntt,Cppling, -xi.: Total,, iF,.t;..SEER EER Heating Heating Heating'' Heating Heating Section:.: Section i. .CFM • t3TkUH .•: kW - ; High High High I Low I Low rs BTUH .,.COP . HSPF BTUH COP 40QNB009 i."--,',."38AN009 :' 213 t`-. 8,500 •::;' .... 0.88 • . 10.5. ' 9.7' r yr <.::_ z; CC- t 40QNB012-1 438AN012 1'; :300= ' ,'• ) 1:1;000' ;1.1&• ?10.5 - 9.3 r 1 _ J:\ 40QNB012-34 ;38AN012T31, ..302,(j, , 11 000 . : 1.15. .11.0. 10.1 ._,:!* , . . - -- Cu' °` 40QNB018 .,38HDC018 ' 480 17,300- 1.66_" - 11.3 10.4 -- -- - --- - �-Z 40QN6018 ' '"'38HDL018 480 16,200 1.67 11.0 9.7 -2 40QNB024 .38HDL018 • 550 17,600 1.69 11.7 10.4 - - --- C 40QNB024 381-100O24 .550'• 22,600 2.09 12.0 10.8• -- -- - --- � 40QNB024 38HDL024 ,_.550 .. 22,600. •. 2.00 11.3 11.3 - - - -_ __ 40QNE009 38BK009 ` 252 '• ' "8,700 " •0.95 -' 10.0 9.2 9,000 3.20 6.80 5,120 .2.20 40QNE012 38BK012 --" 302 12,500 1.28 10.5 9.8 12,500 3.00 6.80 7,190 2.30 40QNE018 38BK018 ......%'455 ' ,17,300 1.71 11,5 10.1 16,900 2.85 6,80 10,100 2.05 40QNE024 38BK024 •...;! 52541423,260: c:•-2,23:.':: , 11.0 10.4 21,400 2.90 6.80 12,700 2.20 40QNH012_ . ..38BK012 ' 300 11,100 1.17 10.0 9.5 11,700 2.70 6.80 7,400 2.16 40QNH018`'" `38BK018 485 17,300 1.71 11.0 10.1 16,400 2.84 "6.80 9,600 2.04 40QNH024 38BK024 520 23,000 2.21 11.0 10.4 21,000 2.92 , .,_:,-6.80 12,700 2.20 1 r. f "•1 t .43 , s , Legend i t , . r ! 1 . * • j •' Air tb2ditioping&Refrigeration institute + i ii € S COP! Coeffloient`'Sf Performance .t 'G' ' ,,.:.. ' • T t',t db °b Bulb i 1 a�t,,1 irli. ,4 i a -•. HSPF; Heating Seasional Petfot•frlahce Factor ` • ' ,r 't. I .a • '` co wb ,,WatBulb, ...:.T......,,,;().-:.1,:::- i ' i:• ' , s i l 1)Ratings are net valtyeg reflecting the eff @`c, of ciYcuiati f n heat:-$upplemehtai electric heat is not included, Ratings art based on; '•- `--- 9 .1 r ,.. 09';x _t g a 1 Cooling Standard :80 deg•F dI 6,7 de fAtiair:entering-evapatator and 95..deg'F db..tr entering condenser. ... ...- l.. _ !._.,. High Temperatule(Heating Standard 70 deg F.'dl air enteringeVa brator and 47•deg F db,43 F wb air entering condenser Low Temperature 1iepting;........anard 70 deg F rib air entering evaporatorarld 17 deg F'db 15,F wb air entering condenser 2)Total kW.Is for toti, "steib,;Includin m Y'riot and`'outdoor and Indoor fan motors, - 4 L - � �Y �. 3)Ratings ate basedgn 25ft of interconndcting t•Qfrigerent lines - t • . - • - 4)All system.ratingsiard based on fan,cob Units oper'ating.at.high fan speed.:.Consult Physical.Date tables for airflows it all available fan speeds i I - • •. •:: . • + i _4 I ,' :.'r,. {; t .3 t}t-,i�, ..� .. ?.r ;ti i • Rev,.A. �a , x, t! •-. ,r -] �,.. � '• '. ..• .. ,. .._ .. ,.. � - .... ._,.. . ... ._ 01112/02 t k i ' e X S:'S' ,rMY'.!Y.d ts•.. .M:.[•. .,. the Fl" .i.s. `•t+... c, _l,,,0• ' S. :fad A ' t +,1,.�_, .x..ctinw n r.' Worksheet 4i Project Name: Page: 2-'t 0C- 25 BOILER - GAS-FIRED & OIL-FIRED illEquipment (a) (b) (c') (d) (e) (f) Discussion of equipment ratings Heating Proposed and equipment Capacity Minimum Proposed Compliance definitions on page Equip. ID Model Designation (Btu/h) AFUE Minimum Ec Schedule(A-D) $—I Welk.-µ0-P.11.1 7 0 ?5.3,00d v\c‘ $1°10 A ^Z uYEtt,-tacLAI N 7$o 753,00o vtq BM° A • Indicate source of information Required Documentation GAMA Consumer Directory,page(s): IX,Product data(Attach data furnished by the equipment supplier,I.e.,"cut sheets"). Code Required Heating Capacity(Btu/h) Efficiencies Compliance But not Minimum Schedule Equipment Type Over over Efficiency 0 300,000 80%AFUE A Gas,Fired Hot Water 300,000 2,500,000 75%Et 2,500,000 - 80%Ec This schedule of equipment efficiencies 0 300,000 75%AFUE was reformatted from the B Gas Fired Steam 300,000 2;500,000 75%E code,Table 13-0. t 2,500,000 - 80%Ec 0 300,000 80%AFUE C Oil Fired Hot Water,Steam 300,000 2,500,000 78%Et 2,500,000 - 83%Ec All 300,000 2,500,000 78%Et vu r-irea I-ceslouai riot D tnr�+o� 2,500,000 - 83%Ec Steam 2,500,000 83%Ec 4-18 • zcof lg. Ratings Equipment -gam ma'G "V 3 Mef SYaa11617tisd( 'Ato-i Bole lite 2arkaged Boifer4, `"�`�',, 4«� a,� ,. ; i 'n « bumei C=-l�'.*4,7-'1 f e • 7 -- . a '-x.*^ r ratio . < lire + ,9 Pressure>1- ,i oa i .b,.iii operating a L Bade f �P� a i P ..- Boiler ualum volume Ircfiiebo>tsizer gaupps'',.. 4.-'..-,..�.uxt:=weight' ,tandar Egmpmeg4 �TiotTers vymdeb,tru ,i -o-$teiimrSTeanT„i,,EE -, i . u Gtcb pgotr.. o., . • ast ranisections � .� � tigeitjorf7:•�MBtCi MBtt Ftp MBtE tMBtt�aCl �51LachWater� a.".€1� » �, i GEft K • 3 i� 1ALC > Oeanne ( "�aPpro7.4 ,fnsuiated st4•jacke a g� 0 1, a.a s .a? a f ' d r s+'" Y'<.,E a"`a .tk:��. c'm, c z :,t m a ^ +' 8o . •x Efame retentlortburnerCCcepC Btk r Z..W Z,t z rir5:6 X94', ` 5-.`° 5 'x.3- g. 1 W i, -4 x" 04. - rt�sti'vc -:s �> _ � a � �� � �}`^«-'p�,'a,9rze ilk t i'� B faiG� 380 2.4 346 278 867 208 242 8.3 2.61 139 0.28 8 37.5 27.5 1058 1170 • , umer moor t mgp Witt .'° 4refracti.it exceptHr430# ...r 480r 3»4g''491;` �n396=� ;°23Et t29�1344 r k&97-'; 19Br al >l'�-�49-:414E44, 20 z r4,,, 4,,. - " • "' �'� 'fir ;��r;aCtimmizedrsteeERueeroffectorw 580 4.45 639 515 .1608 386 448 15.4 5.33 259 0.28 8 60.5 44.5 1448 1752 -.-+' Sentbly° ? 1�., ^ x;'680` ''S 5 787 63 =198 476 '551 .;18 66 32 Pt 2 s 8<_ 72�,� 5 84 x:2093 �5'teet flue c II nd„E... h T.. .._ 780 6.5. 935 753 2354 565 655 22.5 8.05 .378 0.27 10 83.5 61.5 2088 2434 .� damper �. ? di▪ t ,.,_,,,..,,,v..• OBsevatroncpor,.,931,Cr.,..L. ti 88801 .T Crt082 ;872 ;2725 ,654 755a-•:26r 9:41:* r43Cf 4,27 1 g1cF`` 95 = 2;#874 `2T4' 99arsentfons�r K, 980 8.5 1230 991 3096 743 862 29,6 1077 494 027 10 106.5 78.5 2678 3115 Refractor}nlst`anfCe ani CargetMvval-= 1080n 9=-6 az ;'1t.?0r. i34T1+$ 833 965W,X33:2" t� .ssa *,1126 .,ia tk& *6T_ 923F` -04,56h4 ^;• , f irtycambusUor area T ` n•-, Sr decleanoutptates '"-'+ 1180 10.6 1526 1229 .3842 922 1069 36.7 13.49 616 0.26 10 129.5 95.5 3068 3697 «-Etue brusTs "". `1280 itt s-,,yr6T4 X1:34& 4.242 ut01ff 4t72.i.40:3 1485 k 675 ` 0 2 ¢�1?2" ':4TK 1041 3 t .'403 �L 1Y : • i�� "'" 4' Notes " _ ., �. `�`� ������ 1 7. Net I=8=R ratings are based on net installed radiation of Standard•Equipment. Ovate=boilers; 1. See Figure below, sufficient quantity for the requirements of the building and TM▪ r 2. Burner input based on maximum of 2,000 feet altitude.For nothing need be added for normal piping and pickup.Water 311PSIG.4SME safetytefiefl'vaCv ' `°� higher altitudes consult local Weil-McLain representative, ratings are based on a piping and pickup allowance of 1.15. jr Csections tested'.for 8Q PSt ' 17,4 17 3. No.2 fuel oil Commercial Standard Spec.CS75-56.Heat value Steam ratings are based on the following allowances:380 thru of oil-140,000 Btu/Gal. P tl maximum working presstire�� - 1180-1.333;1280-1,321.An additional allowance be made for gravity hot water systems or for unusual piping and : Gom6inahon hi fii limit6fo�nrOmir 4: Consult Weil-McLain Burner Specifications and Data Sheet for pickup loads,Consult local Weil-Mclain representative- contra `9s , gas pressures required. . 8. Stack gas volume at outlet temperature. - ' 5. MBH refers to thousands of Btu per hour. Combinatforspressure•/t i,nOrattit 6. Gross 1=8=R ratings have been determined under the 1=8=R 9. With 0.10'W.C.positive pressure antra collar, gauge „'' n� 4ri provision forced draft boiler-burner units. 10.Section tested for 80 PSIG working pressure. . `a P 6w[t irxatretlmrnatEk .44s M -a+, . a; ment stea StendardEquipmboilers Dimensions 15 PSF RSME safety valve�srde • outlet)` x.11 `Boirer sunPtX PPings Retnrmtappings �. . ,..i a . LOW Ihnit_andhigh limit pressure model size Qty -size gig M 61-i imenstotlS,.inches , 3>.Y �' Rt▪ ': COn- ' > he 'tzrS, number - water i.Sloane s-Water':LLsteam .:,..-,;,,:4(e.4. -.,,,„,B i,,, .t tz. • r :Steam.press.' __.ge 5 Gauge glass gauge cocks arrdigauge: 380 2 -4 2-4 2 -3 2 -3" 13% - 8 12 7A6 13 20% 21% guards 01,...480•:-,.. a.-,:47,,,,,i:,2-4 2'-3' a-3w 2iN ' ..: a ,i:1“5K 21 % 2?I &Si. " c . * hOIIalE to ment ".- "580 2 -4 2 -4 2 -3' 2 -3 27/ 8 13 f 27 4 34 h 35 5 - a • 689 Z -4.7.::r. 2-4' , 2 i.-3 "2�.=3« 3`34*/ _ 4 "� t3 s/a 34e ,,4t? 42 Sid' ortype)watercut offs CprnbeorQa 780 2 -4' 2-4' 2 -3' 2 -3' 41% - 10 27% 414A 48% 495k nk '- '' n't'" •Tankless heaters- axle " . 880 2 -4 2'-4 2'-3 2 -3 a ,4&Y/s tEF ;�27 4854 55 56 umer mounting plata CforPf 80 • B 980 2 -4' 2 -4' 2 -3' 2 -3' 55 iib 10 41% 55/ 62%e 63 5/a boilersl ,� �. ir •;1080 2Y=4' 3 -4 2:=3. € 2=3. .`62rrfr &IT 5� r: �w ;:62:1 , •6a;3y 7Ek . Factory assembled sections -e.: t 9 ._ 5 ''. e Fire-tested=packaged boiler Cwith l 1180 2 -4 3 -4 2 -3 2 -3 69% 34 fie 10 55% 69'Ft 76%e 773/e u. water,cut off) ii, �X s.4, .1280 2-4 ,.3-4`. ::-.. 2`3 21.4r:5;Z5;f 0 9.efit e,f•Oi ' 55l- s4-,.70i` 8a3i . '84,s�a' • t' TO'w 5 11'/.,. 1I. 34"minimum 1 Z\zn' �- I for heater removal I i<1, , 4--B -`• r«4ZB\zn" ll ��- • till, Wel•r lNte i, a 576 zn' 4'NPT auuen R B 0 ` II ! / 0 a 478\zn 5�. �` / rat 36B\zn"10Z\ I+ x l 32/' 0 I --�I I' 20%s "NPT return . 1 ,, 1 t 1 H 13" 4 , > > �, I a £4 i 4C\, �- - * (Boiler sectlon length)• •• - ' -•i -4C\,' 2914\," L FRONT SIDE INTERMEDIATE BACK • • In the interest of continual improvements in product and performance,Weil-McLain reserves the right to change specifications without.notice. • \ `1 , `' Locate our Sales Offices by visiting our website: Weil-McLain www.well-mclain.com 500 Blaine Street Michigan City,IN 46360-2388 ©2001 Weil-McLain Form No.C-987(0602)