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Selawik Waste Heat Recovery System - Final Design Submittal March 14, 1995
Alaska Energy and Engineering,Inc. Mailing Address -P.O.Box 111405 1217 East Klatt Road,Suite A Anchorage,AK 99511-1405 (907)349-0100 349-8001 fax March 14,1995 The Honorable Charlie Riley,Mayor City of Selawik P.O.Box 49 Selawik,Alaska 99770 Subject:Selawik Waste Heat Recovery System -Final Design Submittal Mayor Riley: Alaska Energy and Engineering,Inc.is pleased to provide the final design submittal for the above referenced project,including the following: 1 ea.24”x 36”Mylar original of design drawings, 4ea.24”x 36”copies of the design drawings,1 ea.3-1/2”diskette(s)with AutoCAD Release 12 format files,4ea.8-1/2”x 11"copies of cost estimates,field notes and calculations The specifications are included on the face of the drawings. 1 spoke with both the Alaska Village Electric Cooperative and Northwest Arctic BoroughSchool.District recently regarding the requests for letters of non-objection.|wasinformedthattheDistricthasrecentlyforwardedalettertotheBoroughMayorrequestingapprovalandissuanceoftheletterofnon-objection.Also,Mark Teitzel(AVEC,Assistant Manager)has indicated that a letter of non-objection will be issued. We have enjoyed working with you and the staff at PHS to complete the design of your waste heat recovery project,and look forward to working with you again soon.!f you have any questions please call me at (907)349-0100,or fax your comments to (907) 349-8001. Sincerely, wy Energy "Apes |Inc. p be 4MStef'P-E. President Attachments cc:Tom Heintzman -OEH&E Mark Teitzel -AVEC Alaska Energy and Engineering,Inc.Mailing address -P.O.Box 111405 1217 East Klatt Road,Suite AAnchorage,AK 99511-1405(907)349-0100349-8001 fax January 25,1995 Mr.Mark Teitzel,P.E. Manager Engineering Alaska Village Electric Coop,Inc. 4831 Eagle Street Anchorage,AK 99503-7497 SUBJECT:Selawik Waste Heat Project -Request for Letter of Non-Objection Dear Mr.Teitzel: As you are aware,Alaska Energy and Engineering,Inc.is providing design servicesfortheCityofSelawikWasteHeatProject.This project will provide "waste”heatfromtheAVECpowerplanttotheCityClinicandWaterTreatmentPlant.As shown on sheets M1 and M2 of the attached drawings dated January 23,1995,the projectincludestheconstructionofawasteheatmoduleadjacenttotheexistingASMIModuleandButlerBuilding,tie-in to the power plant cooling systems,and routing ofarcticpipingacrossAVECproperty(ref.USS 4492,Block 5,Lot 1). This letter is to formally request on behalf of the City of Selawik a Letter of Non-objection from the Alaska Village Electric Cooperative,Inc.(AVEC)to provideaccesstotheCityofSelawikfortheplacementofthewasteheatmodule,tie-in to theAVECcoolingsystems,and routing of arctic piping across AVEC property. The project is planned for construction this summer.I look forward to answering anyquestionszoumayhaveregardingthisrequest.If you have any questions please cmeat(907)349-0100,or fax your comments to (907)349-8001. Sincerely, Alaska Energy and Engineering,Inc.bead,Bt rfPresident attachment ce:Honorable Charlie Riley:Mayor,City of Selawik (without attachment)Mr.Tom Heintzman,PHS,(without attachment) Alaska Energy and Engineering,Inc.Mailing address -P.O.Box 111405 1217 East Klatt Road,Suite AAnchorage,AK 99511-1405(907)349-0100349-8001 fax January 20,1995 Mr.Randall Swenson Superintendent NABSD P.O.Box 51 Kotzebue,AK 99752 SUBJECT:Selawik Waste Heat Project Arctic Pipe Routing-Request for Letter of Non-Objection Dear Mr.Swenson: Alaska Energy and Engineering,Inc.is providing design services for the City ofSelawikWasteHeatProject.S$project will provide "waste”heat from the AVECpowerplanttotheCityWaterTreatmentPlant.As shown on the attached site plan,the arctic piping will be routed from the AVEC plant,across the City Clinic property,to the existing utilidor on school prope (USS 2044).The piping will be attached totheutilidorfromthispointtotheWaterTreatmentPlant.; This letter is to formally requesta Letter of Non-objection from the Northwest ArcticBoroughSchoolDistricttoprovideaccesstotheCityofSelawikfortheroutingofthearcticpipingforthisproject. The project is planned for construction this summer.I look forward to answering anquestionsyoumayhaveregardingthisrequest.Ifyou have any questions please cmeat(907)349-0100,or fax your comments to (907)349-8001. Sincerely, Alaska Energy and Engineering,Inc.ead,fhondevenJ.Stassél,P.E. President attachment cc:Honorable Charlie Riley:Mayor,City of Selawik (without attachment)Mr.Tom Heintzman,PHS,(without attachment) SELAWIK WASTE HEAT RECOVERY SYSTEM 95%DESIGN NARRATIVE SYSTEM PURPOSE: The heat recovery system is designed to capture heat generated at the Alaska Village Electric Cooperative (AVEC)power plant,that would otherwise be rejected to the -atmosphere by the radiators,and transfer this heat to the community water treatment plant and clinic.The objective is to reduce the consumption of expensive heating fuel by utilizing waste heat. SYSTEM DESCRIPTION AND OPERATION: Hot engine coolant at the AVEC plant is piped to a plate and frame heat exchanger located in a waste heat module (WHM).Heat is transferred from the engine coolant to the waste heat loop without mixing the fluids.The waste heat fluid will then be pumped through arctic pipe to the clinic and water treatment plant (WTP).The waste heat loop is tied into the clinic and WTP heating systems via plate and frame heat exchangers.These heat exchangers will also transfer heat from the waste heat loop to the building heating systems without mixing the fluids. AVEC PLANT TIE-IN: Due to the low-head capability of the AVEC KTA 38 (SMI Module)and CAT 3412 (Butler Building)gen-sets,a secondary pumped loop arrangement is used to transfer the hot engine coolant to the WHM.Both the SMI Mcdule and the Butler Building will each use a 4”secondary loop with a Grundfos UMC 65-40 pump to circulate the hot engine coolant to the WHM heat exchanger.Each circulating pump is interlocked with its corresponding gen- set running signal to ensure that the pump only operates when the appropriate gen-set is on-line. Additional expansion tank capacity is not required for the SMI Module and Butler Building cooling systems due to the increased coolant volume in the secondary piping loop and WHM heat exchanger. A letter has been submitted to AVEC requesting a letter of non-objection for the City to locate the waste heat module and arctic piping on AVEC property and tie into the power plant cooling system (see attached letter to Mark Teitzel -AVEC,dated January 23,1995). WASTE HEAT MODULE: The proposed WHM will consist of an 8'x 8'insulated structureset on an |-beam/treated heavy timber foundation.The plate and frame heat exchanger and all circulating pumps (two secondary loop pumps and the waste heat loop circulating pump)are located in this module for ease of access and maintainability.The waste heat loop expansion tank (ET- WH1)will also be located in the WHM and provide expansion capacity for the waste heat piping loop.An electric service drop with meter and service panel are included to provide power to the ventilation system,circulating pumps,and module lighting.Stainless steel flex connectors are used at all piping connections to the waste heat module to provide flexibility for differential movement between the WHM and AVEC power plant buildings. Selawik Waste Heat Recovery Project (1) 95%Design Narrative All piping inside the WHM and the secondary piping loops between the Butler Building,SMI Module,and the WHM is Schedule 40,welded and flanged steel pipe.All piping is insulated with a minimum of 1”insulation and have an aluminum jacket where exposed to the weather.All valves are lug style butterfly valves with Viton seals that are compatible with 50/50 ethylene glycol/water mixtures at 200F.Flexibility is provided where required for thermal expansion and differential movement.Air vents,thermometers,pressure gauges, drain valves and pressure relief valves will also be provided. ARCTIC PIPING (Waste Heat Loop): The arctic piping cannot be buried because of the potential for thawing the ice-rich permafrost and failing the foundations of adjacent structures.The arctic piping is installed on treated heavy timber sleepers above grade and routed undemeath the Butler Building and along the perimeter of the Clinic to the raw water utilidor.The piping will then be run on top of the boardwalk along side of the utilidor to the water treatment plant.The arctic piping is attached to the boardwalk from adjacent to the Clinic to the WTP and include expansion loops at each utilidor access box for both clearance and thermal expansion. The arctic piping system is a pre-insulated,bonded piping system.The pipes consist of a thin-wall (schedule 10)steel carrier pipe and HDPE outer jacket bonded to a polyurethane foam insulation.The carrier piping will have all welded joints.The system comes complete with all fittings,tools and accessories required for assembly.The waste heat fluid will consist of a 50/50 Propylene Glycol/Water solution to provide freeze protection to the piping and be compatible with the WTP hydronic fluid. All valves are lug style butterfly valves with seals that are compatible with 50/50 propyleneglycolWwatermixturesat200F.Flexibility is provided where required for thermal expansion and differential movement and air eliminators are provided at all high points. A letter has been submitted to the Northwest Arctic Borough School District requesting a letter of non-objection for the City to route the waste heat arctic piping on NABSD property (see attached letter to Mr.Randail Swenson,NABSD Superintendent,dated January 20, 1995). CLINIC TIE-IN: All piping between the plate heat exchanger and the boilers is type L copper pipe and supported as required.All isolation valves are sweat style bronze gate valves.All piping is insulated with a minimum of 1”insulation and have an all-service jacket.Flexibility is provided where required for thermal expansion and differential movement.Air vents, thermometers,pressure gauges,drain valves and pressure relief valves will also be provided. WATER TREATMENT PLANT TIE-IN: The maximum anticipated delivered waste heat supply temperature is about 180F.Due to the relatively high temperature required to operate the hydronic dryers and hot water generator (190F+),the existing WTP heating loads are separated into "high”and "low' temperature loops.Boiler B-2 will provide heat to the high temperature loop and service the hydronic dryers and hot water generator.Boiler B-1 will provide heat to the low Selawik Waste Heat Recovery Project (2) 95%Design Narrative temperature loop and service the following critical loads:Building heat;Water Tank heat; Incoming Raw Water heat;and utilidor heat for the River,60 Home,and 20 Home utilidors. The waste heat system will only provide heat to the low temperature loop. A third heat exchanger (shell and tube type)is used to provide heat from the high temperature boiler to the low temperature loop in the event that the low temperature boiler fails and the waste heat system cannot meet the heating load.On a call for heat,pump CP-12 will circulate heat from the high temperature loop through the shell and tube heat exchanger to heat the low temperature loop.Contacts are provided in the motor starter for CP-12 for PHS to connect an alarm (visual,audible,or both)to signal that the low temperature loop has malfunctioned.(The shell and tube heat exchanger and CP-12 have been sized for the maximum boiler output since information from the engineer designing the improvements to the new water and vacuum sewer system is not available). All piping between the plate heat exchanger and the boilers is type L copper pipe and supported as required.All isolation valves are sweat style bronze gate valves.All piping is insulated with a minimum of 1”insulation and have an all-service jacket.Flexibility is provided where required for thermal expansion and differential movement.Air vents, thermometers,pressure gauges,drain valves and pressure relief valves will also be provided. Selawik Waste Heat Recovery Project (3) 95%Design Narrative SELAWIK WASTE HEAT SYSTEM COST ESTIMATE NARRATIVE The attached cost estimate is based on the construction being performed by local force account labor under the supervision of a contract foreman.All welding and electrical work is estimated based on being performed by a contract welder and electrician. The total estimated cost is $208,500.The following items are included in this cost estimate: e purchase and installation of approximately 1350 lineal feet of pre-insulated arctic piping, e purchase and erection of a pre-fabricated waste heat module (WHM),with foundation, e purchase and installation of a plate heat exchanger,expansion tank,circulating pumps,and miscellaneous piping and appurtenances in the WHM, e connection of the AVEC power plant cooling systems to the WHM heat exchanger, e demolition and modification of the water treatment plant (WTP)hydronic piping to separate the high and low temperature loads, e purchase and installation of a shell and tube heat exchanger and circulating pump 'at the WTP to provide emergency heat from the high temperature loop to the low temperature loop in the event of the low temperature loop boiler failure, e purchase and installation of a plate heat exchanger at the WTP and connection to the arctic piping, e purchase and installation of a plate heat exchanger and miscellaneous appurtenances at the Clinic and connection to the arctic piping, e purchase and installation of electrical equipment at the WHM and the WTP, e purchase and installation of insulation for the AVEC Butler Building and storage van. This cost estimate is approximately $36,000 higher than the cost estimate submitted with the preliminary submittal for the following reasons: e Freight was estimated based on chartering an Everts Air Fuel DC-6 out of Fairbanks at a cost of approximately $8,000/charter (23,000 Ib).Recent information indicates that Everts may no longer be available for charter.Therefore,the estimated freight cost was increased by 25%. e The cost of insulating the Butler Building and AVEC storage van was included. Selawik Waste Heat System Cost Estimate Page 1 January 25,1995 e The estimated cost of the arctic piping was increased by 20%due to an increase in manufacturing costs and a change in the foreign exchange rate. e The estimated cost of the WHM plate heat exchanger was increased by 50%due to a change in vendor information provided. e The Clinic was added to the waste heat system. e Aninventory of major components such as spare pumps,thermometers,pressure gauges,50/50 Dowfrost propylene glycol,and miscellaneous valves,air vents,prv valves,was added.The purpose is to provide an inventory of necessary items so they would be immediately available as required.A locked storage cabinet will be provided in the waste heat module to store these items with the intent that the City would order replacements as the inventory is used. Most importantly,a more conservative estimate was used regarding the number of welded joints that can be performed per day.The majority of estimated labor costs (approximately 65%)are directly related to the productivity of the person performing the welding.From our direct experience in performing pipeline type projects (waste heat systems,fuel systems,and power plant cooling systems),the welding productivity on a project such as this can vary on average between 10 to as high as 30 welds per day. This variation is most dependent upon the particular person performing the welding,as well as the impacts of adverse weather on productivity. To provide a reasonable overall cost estimate for the project,we have used an average of 15 welds per day.This is a fairly conservative productivity rate,but the following should demonstrate the impact of the welding productivity on the labor costs. Current labor cost estimate:$47,850 Labor cost due to welding productivity at 15 welds/day:65%x $47,850=$31,100 Assume welding productivity at 10 welds/day:$31,100x(15/10)=$46,650 Total labor cost at 10 welds/day:$46,650 +($47,850 -$31,100)=$63,400.This is an overall labor cost increase of nearly 33%,or $15,550. On the other hand,if the average welding productivity is 20 welds/day,the labor cost could be reduced to about $40,000. This example is provided to demonstrate the importance on the overall cost of the project of selecting a welder who is not only a competent welder,but who is also a productive welder. Selawik Waste Heat System Cost Estimate Page 2 January 25,1995 CITY OF SELAWIK WASTE HEAT RECOVERY SYSTEM COST ESTIMATE Item Estimated Material Cost ($)Est Wt.(#) Waste Heat Module and Power Plant $38,898 12790 Clinic $3,447 240 Water Treatment Plant $17,714 2651 Arctic Piping $30,928 21332 Electrical $2,800 800 Butler Building Floor Insulation (includes labor/frt/materials)$1,500 0 AVEC Storage Van Insulation (includes labor/frt/materials)$4,750 0 SUBTOTAL MATERIALS:$100,037 37,813 LABOR HRS S/HR LABOR $ Force Account Labor 830 $23.50 $19,500 (Based on $15.00/hr *1.55 for OT &Fringe Benefits =$23.50/hr) Contract Labor Foreman @ $50/hr 270 $50 $13,500 Welder @ $45/nr 270 $45 $12,150 Electrician @ $45/nr 60 $45 $2,700 SUBTOTAL LABOR:$47,850 Mob/Demob $3,000 Freight 0.55 37,813 $20,797 T&PD 2500 2500 $5,000 (70 Man-Days at $35/hr +4 round trips) SUBTOTAL :$176,684 0 Supervision,Inspection & Administration 8%$14,135 Contingencies 10%$17,668 [TOTAL $208,487 | Selawik Waste Heat System Cost Estimate Page 3 1/23/95 °UNIT TOTAL ITEM DESCRIPTION QUANTITY |UNIT COST |TOTAL COST|WEIGHT |WEIGHT iEC/(WASTE HEAT MODULE MATERIALS -4"WELD FITTINGS weld fittings to be domestic steel.Flanges to be nimum 150#class. 90 Deg.Weld Elbow,C.S.,L.R.20 $10.00 $200.00 8.70 174 45 Deg.Weld Elbow,C.S.,L.R.4 $7.25 $29.00 4.30 17.2 x4"x 4"Weld Tee,C.S.6 $20.00 $120.00 12.60 75.6 "Weld Cap,C.S.2 $10.00 $20.00 2.60 5.2 450#Weld Neck Fig.,C.S.50 $18.00 $900.00 17.00 850 150#Thrd.Fig,C.S.2 $12.50 $25.00 15.00 30 450#Slip-on Fig,C.S.10 $14.00 $140.00 15.00 150 450#Blind Fig.C.S.2 $13.00 $26.00 19.00 38 ™3”Bell Reducer 5 $8.00 $40.00 3.60 18 x 2"Bell Reducer 6 $8.00 $48.00 3.50 21 aitSet for 4"Fig.20 $4.50 $90.00 1.00 20 "Flex-o-taulic Gasket 20 $3.50 $70.00 0.25 5 3”WELD FITTINGS ii weld fittings to be domestic steel.Flanges to be jinimum 150#class. *90 Deg.Weld Elbow,C.S.,L.R.10 $6.50 $85.00 4.60 46 "45 Deg.Weld Elbow,C.S.,L.R.2 $5.50 $11.00 2.40 4.8 *1504 Weld Neck Fig.,C.S.16 $14.00 $224.00 11.00 176 "150#Slip-on Fig,C.S.2 $10.00 $20.00 9.00 18 *450#Blind Fig.C.S.1 $9.00 $9.00 10.00 10 "x 2"Bell Reducer 3 $4.50 $13.50 2.20 6.6 jolt Set for 3"Fig.8 $2.50 $20.00 1.00 8 "Flex-o-taulic Gasket 8 $2.50 $20.00 0.25 2 MISC.THREADED FITTINGS 4"Close Nipple 4 $1.00 $4.00 0.20 0.8 4"x 1/4"BMI Hex Bushing_11 $0.50 $5.50 0.13 1.375 V4"Union 2 $3.00 $6.00 0.60 1.2 4"x 4"weld-o-let 30 $2.50 $75.00 1.20 36 1/4"x close nipple 11 $0.50 $5.50 0.10 1.1 1/4"street 90 11 $0.50 $5.50 0.10 1.1 PIPE 4"A106B Sch 40 Steel Pipe,Single Random 140 $5.00|$700.00 10.80 1512 3"A106B Sch 40 Steel Pipe,Single Random 40 $4.00}$160.00 7.60 304 3/4"Al 06B Sch 40 Steel Pipe,Single Random 20 $1.00 $20.00 1.15 23 Deere Page 1 ITEM DESCRIPTION QUANTITY UNIT COST TOTAL COST UNIT WEIGHT TOTAL WEIGHT - Sn VALVES aa 4"Butterfly valve,lug style ductile iron body, minimum 150 psi working pressure,ductile iron disk,Stainless stee!stem,Viton seat liner and seat insert "O*sing,Crane Monarch Butterfly Valve No. 23,or equal.15 $245.00 $3,675.00 20.00 300 3"Butterfly valve,lug style ductile iron body, minimum 150 psi working pressure,ductile iron disk,stainless steel stem,Viton seat liner and seat insert "O”ring,Crane Monarch Butterfly Valve No. 23,or equal.:$200.00 $800.00 15.00 60 1-1/2"Bail Valve,threaded ends,minimum 150 psi working pressure,chrome plated brass ball and pronze body,PTFE packing and seat ring, adjustable packing,Crane Capri Ball Vaive 9302, lor equal.=$50.00 $50.00 5.00 3/4"Ball Valve,threaded ends,minimum 150 psi -working pressure,chrome plated brass ball and bronze body,PTFE packing and seat ring, adjustable packing,Crane Capri Ball Valve 9302, or equal.18 $8.00 $144.00 2.00 36 3/4"Boiler Drain Valve,3/4"MPT x 3/4”Male hose thread,minimum 150 psi working pressure,bronze body,adjustable packing,_or equal.$4.00 $20.00 1.00 MISC.VALVES AND GAUGES 100 PSI Pressure relief valve $50.00 $150.00 2.50 50 PSI Pressure relief valve $50.00 $100.00 2.50 3/4"Air Vent $25.00 $175.00 1.00 Dial thermometer with brass well $100.00 $800.00 4.50 Pressure gauge,1/4”mpt =|ONDO]$25.00 $275.00 1.00 FLEX CONNECTORS All Flex Connectors to be Stainless Steel flexible hose with Stainless Steel outer braid.All flanges to be ANSI B16.5 4"Fixed x Figt.Fig Flex Connector w/150#ANSI Flanges,SST,36"Live Length $275.00 $1,375.00 250 3"Fixed x Figt.Fig Flex Connector w/150#ANSI Flanges,SST,36”Live Length $200.00 $800.00 160 Page 2 --UNIT TOTAL __ITEM DESCRIPTION QUANTITY |UNIT COST |TOTAL COST]WEIGHT |WEIGHT a MISC.EQUIPMENT _- yndfos UMC 65-40,Wet Rotor,In-Line,SingleageCirculatingPump,1PH,120 V.3 $600.00 $1,800.00 60.00 180 undfos UPC 65-160,Wet Rotor,In-Line,Single age Circulating Pump,1PH,230 V.2|$1,000.00 $2,000.00 80.00 160 mstrong AX-144V Expansion tank 1 $800.00 $800.00 300.00 300 HM Heat Exchanger 1 $9,800.00 $9,800.00}2000.00 2000 mstrom VA-3 Air Eliminator 1 $350.00 $350.00 100.00 100 'Amot 180B0C01 1 $1,000.00 $1,000.00 150.00 150 /40 Fleetguard ethylene glycol/H20 (gallons)110 $7.00 $770.00 9.00 990 ;cutcheon Plate 4"diameter 12 $15.00 $180.00 1.00 12 ;cutcheon Plate 3"diameter 4 $15.00 $60.00 1.00 4 a WASTE HEAT MODULE X 8'MODULE 1 $8,000.00 $8,000.00)2500.00 2500 42 Ventilation air intake 1 $200.00 $200.00 §0.00 50 42Galvanized exhaust hood w/1/2”galvenized ire mesh 1 $200.00 $200.00 50.00 50 j/12 interior exhaust duct w/1"rigid fiberglass sulation 1 $150.00 $150.00 50.00 50 xhaust fan 1 $350.00 $350.00 50.00 50 2"x 7"lag bolts $0.00 $0.00 0.00 0 8".x 4"lag bolts $0.00 $0.00 0.00 0 12x12'timber (if)120 $0.00 $0.00 0.00 0 16 x 15,12 foot long |-beam (Ib)600 $0.35 $210.00 1.00 600 }0 #misc structural steel 500 $0.35 $175.00 1.00 500 'rigid insulation (32 sq feet/sheet)3 $18.00 $54.00 0.00 0 "x 2"x 1/4"SQ.Tube (Ib)180 $0.35 $53.00 1.00 -180 lisc.Hangers,Pipe straps,hrdwr,etc 1 $500.00 $500.00 250.00 250 INSULATION "DIAM X 1"thick (LF)AP Armafiex w/alum cover 1 $500.00 $500.00 150.00 150 "DIAM X 1"thick (LF)Ffiberglass insulation 1 $200.00 $200.00 §0.00 50 "DIAM X 1"thick (LF)Ffiberglass insulation 1 $300.00 $100.00 50.00 50 TOTAL:$38,898 1279 BUTLER BUILDING AND VAN Jutler Building Insulation w/chicken wire screen 1 $1,500.00 $1,500.00 0.00 0 storage Van Insulation 1]$4,750.00 $4,750.00 0.00 0 TOTAL:$8,250 0fotalincludeslabor/frt/and materials Page 3 ,UNIT TOTAL _ITEM DESCRIPTION QUANTITY |UNIT COST |TOTAL COST}WEIGHT |WEIGHT Nic MATERIALS _MISC.FITTINGS 7X1-1/4"W-o-L 8 $2.50 $20.00 0.13 1 *Close Nipple 10 $1.00 $10.00 0.20 2 *x1/4"BMI Hex Bushing 5 $0.50 $2.50 0.13 0.625 *Union 0 $2.50 $0.00 0.60 0 *x 1"weld-o-iet 0 $2.50 $0.00 1.20 0 *xclose nipple 11 $0.50 $5.50 0.10 1.1 *street 90 11 $0.50 $5.50 0.10 1.1 weld 90 8 $1.50 $12.00 0.50 4 WNF 2 $2.50 $5.00 1.00 2 PIPE A106B Sch 40 Steel Pipe,Single Random 20 $1.75 $35.00 1.70 34 (aType L Copper 40 $2.00 $80.00 1.00 40 COPPER FITTINGS 1/4"Copper Tee 2 $20.00 $40.00 1.00 2 1/4"Brx Fig 3 $20.00 $60.00 1.00 3 74"Copper Ell 10 $5.00 $50.00 1.00 10 __MISC.VALVES AND GAUGES i0PSI Pressure relief vaive 2 $50.00 $100.00 2.50 5 #°Air Vent 4 $25.00 $100.00 1.00 4 al thermometer with brass well 4 $100.00 $400.00 1.50 6 essure gauge,1/4”mpt 4 $25.00 $100.00 1.00 4 CBV 1 $45.00 $45.00 2.00 2 sulation 1 $100.00 $100.00 25.00 25 VALVES 4/4"Gate vaive,sweat ends,minimum 150 psi orking pressure,bronze body,threaded bronze net,solid wedge bronze disk,XXX,or equal.3 $50.00 $150.00 §.00 15 'Gate valve,sweat ends,minimum 150 psi orking pressure,bronze body,threaded bronze onnet,solid wedge bronze disk,XXX,or equal.2 $25.00 $50.00 5.00 10 4"Ball Valve,threaded ends,minimum 150 psi orking pressure,chrome plated brass ball and ronze body,PTFE packing and seat ring, djustable packing,Crane Capri Ball Valve 9302, requal.7 $8.00 $56.00 2.00 14 /4"Boiler Drain Valve,3/4"MPT x 3/4"Male hose read,minimum 150 psi working pressure,bronze Ody,adjustable packing,or equal.4 $5.00 $20.00 1.00 4 --EQUIPMENT linic Plate Heat Exchanger 1}$2,000.00 $2,000.00 50.00 50 _TOTAL:$3,446.50 24 Page 4 -_UNIT TOTAL _ITEM DESCRIPTION QUANTITY |UNIT COST |TOTAL COST|WEIGHT |WEIGHT TER TREATMENT PLANT MATERIALS -3"WELD FITTINGS veld fittings to be domestic steel.Flanges to be imum 150#class. 0 Deg.Weld Elbow,C.S.,L.R.6 $6.50 $39.00 4.60 27.6 5 Deg.Weld Elbow,C.S.,L.R.2 $5.50 $11.00 2.40 4.8 50#Weld Neck Fig.,C.S.14 $14.00 $196.00 11.00 184 50#Slip-on Fig,C.S.2 $10.00 $20.00 9.00 18 [Setfor 3"Fig.10 $2.50 $25.00 1.00 10 'Hex-o-taulic Gasket 10 $2.50 $25.00 0.25 2.5 Hex-o-taulic Gasket 10 $3.50 $35.00 0.25 2.5 [Set for 4"Fig.10 $2.50 $25.00 1.00 10 MISC.THREADED FITTINGS "Close Nipple 15 $1.00 $15.00 0.20 3 x 1/4"BMI Hex Bushing 6 $0.50 $3.00 0.13 0.75 "Union 2 $2.50 $5.00 0.60 1.2 *x 3"weld-o-let 15 $2.50 $37.50 1.20 18 *x close nipple 8 $0.50 $4.00 0.10 0.8 *street 90 8 $0.50 $4.00 0.10 0.8 PIPE A106B Sch 40 Steel Pipe,Single Random 20 $4.00 $80.00 7.60 152 COPPER PIPE Copper Tubing,Type L 20 $20.00 $400.00 5.40 108 Copper Tubing,Type L 140 $12.50 $1,750.00 3.40 476 *™Copper Tubing,Type L 20 $1.35 $27.00 0.50 10 COPPER FITTINGS ELL Copper 6 $33.00 $198.00 4.00 24 x 4"x 3 Copper Tee 2 $42.00 $84.00 5.00 10 «3 Copper Rder 4 $20.50 $82.00 2.00 8 Brz Fig 4 $56.00 $224.00 11.00 44 ELL Copper 40 $14.00 $560.00 2.00 80 Copper Tee 8 $28.00 $224.00 3.50 28 x 2"Copper Rder 2 $10.00 $20.00 1.10 2.2 Dielectric Fig (set)6 $16.00 $96.00 5.00 30 x3"x 3/4"Copper Rdcg Tee 5 $77.00 $385.00 2.00 10 X3/4"x 3"Copper Rdcg Tee 4 $77.00 $308.00 3.00 12 Brz Fig 4 $30.00 $120.00 3.50 14 4"FPT x 3/4"Copper,swt 10 $2.00 $20.00 0.10 1 4"Ell,Copper 8 $0.80 $8.40 0.20 1.6 Page 5 -UNIT TOTAL __ITEM DESCRIPTION QUANTITY |UNIT COST |TOTAL COST|WEIGHT |WEIGHT -VALVES Sutterfly valve,lug style ductile iron body,jmum 150 psi working pressure,ductile iron,,stainless steel stem,Viton seat liner and seatyt°O”ring,Crane Monarch Butterfly Valve No.. or equal.3 $200.00 $600.00 15.00 45 #o-Control Valve,threaded ends.1 $300.00 $300.00 40.00 40 Sate valve,sweat ends,minimum 150 psi «ing pressure,bronze body,threaded bronze inet,Solid wedge bronze disk,XXX,or equal.2 $425.00 $850.00 §5.00 110 'ircuit Balance Valve,Flange ends,minimum |psi working pressure,ductile iron body,XXX,ortal.1 $400.00 $400.00 35.00 35 gate valve,sweat ends,minimum 150 psi 'king pressure,bronze body,threaded bronze inet,solid wedge bronze disk,XXX,or equal.12 $200.00 $2,400.00 20.00 240 *Ball Valve,threaded ends,minimum 150 psi rking pressure,chrome plated brass ball and nze body,PTFE packing and seat ring, ustable packing,Crane Capri Ball Valve 9302, equal.18 $8.00 $144.00 2.00 36 *Boiler Drain Valve,3/4"MPT x 3/4”Male hose ead,minimum 150 psi working pressure,bronze dy,adjustable packing,or equal.4 $4.00 $16.00 1.00 4 MISC.VALVES AND GAUGES 0PSI Pressure relief valve 5 $50.00 $250.00 2.50 12.5 |"Air Vent (Maid-o-Mist #75,or equal)7 $25.00 $175.00 1.00 7 al thermometer with brass well (20F to 240F)7 $100.00 $700.00 1.50 10.5 essure gauge,1/4”mpt (0 to 60 psi)§$25.00 $125.00 1.00 § MISC.EQUIPMENT undfos UMC 65-40,Wet Rotor,In-Line,Single age Circulating Pump,1PH,120 V.1 $600.00 $600.00 60.00 60 TP Plate Heat Exchanger 4 $4,335.00 $4,335.00 500.00 500 TP Shell &Tube Heat Exchanger 1 $1,350.00 $1,350.00 200.00 200 icutcheon Plate 3"diameter 2 $15.00 $30.00 9.00 18 jneywell aquastat w/well 1 $100.00 $100.00 9.00 9 'diam escutcheon plate 4 $15.00 $60.00 7.00 4 sulation 1 $250.00 $250.00 50.00 50 TOTAL:$17,713.90 2651 Page 6 -_-_-UNIT TOTAL ITEM DESCRIPTION QUANTITY |UNIT COST |TOTAL COST|WEIGHT |WEIGHTCTICPIPINGee. Moller arctic pipe 1350 If with fittings andylation__1}$24,500.00 $24,500.00}12500.00 12500 jiam U-bolts w/nuts and washers 20 $10.00 $200.00 1.50 30 chase from AK Spring 563-3802-Carlarhas'- Vent enclosure 7 $60.00 $420.00 10.00 70 Nip 7 $1.00 $7.00 0.50 3.5 3/4"rdcer 7 $25.00 $175.00 2.00 14 *ball valve (thrd)7 $8.00 $58.00 1.00 7 fair vent 7 $25.00 $175.00 1.00 7 istrut (1b)100 $1.00 $100.00 7.00 100 uctural steel (Ib)300 $0.35 $105.00 1.00 300 eanchors and straps 1 $1,500.00 $1,500.00 250.00 250 i50Dowtherm/H2O antifreeze (55 gal drum)10 $285.00 $2,850.00 520.00 5200 x12"x 8'Treated for burial (LF)120 $4.00 $480.00 14.00 1680 x 12"x 12'Treated for burial (LF)180 $2.00 $380.00 6.50 1170 TOTAL:$30,928.00 21,33 ELECTRICAL ASTE HEAT MODULE/WTP yrvice Entrance Equipment 1 $150.00 $150.00 50.00 50 iad Center,50 Amp 1 $150.00 $150.00 25.00 25 1H,120V motor starter w/Thermal Overload Units 3 $150.00 $450.00 25.00 75 ght,1PH,120V 1 $50.00 $50.00 25.00 25 2H,230V motor starter w/Thermal Overload Units 1 $150.00 $150.00 25.00 25 2"EMT conduit 1 $300.00 $300.00 300.00 300 2"conduit fittings 1 $250.00 $250.00 50.00 50 WV relays for engine start signal 2 $150.00 $300.00 25.00 50 isc Elect 1|$1,000.00 $1,000.00 200.00 200 st 7 days including travel time for labor TOTAL:$2,800.00 80 Page 7 wre42U(s(o¢ZELAwIe WH BR GCLar 4239992OGRECYCLEDWit5SOuiaAnEMODAHYPhotic SYSTEM CALCS? FER AGREENEAST W/FHSS B-2 Will SERVE HICH-TEMP,Won -CITI CALLorn.PS (Hel WATE ¢PRYERD)4 WILL Noe PE SERVED W/WATE Heat.B-l Will SERVE Low-TEMFP,CRITICAL LOADS (WATER&BLDG HEAT)£WiLL BE SEEVED uf WASTE HEAT FEL CALLS BN Tod HEINTCHANN CHS)Low TEMP LOAD =440 HBH PLeEUM BRON oF WH AVAILABILITY SPFEAD SHEET INDicaTES FEAKAVAIL=534 MBH (CEH VERED 7 END USER PipGaD &AVG WH AVAIL Fok.WINTER HIG SeAso CocT-aAre)=412 ABH WILL SIZE Sistem To PELiveR 450 MB Fe END UsER WHICH WiLL MEET CoezentT E5TiMosED PEAK HIG LOAD 4 VAST MALORITY OF FLT Noznat HG LOAD AS WATER SYSTEM >EXPANDED CNYOTE-ASLIT'Sfavs Erecteic LonO €wH AVAIL WILL INCREASED IMG TEL TAYS Fee Kort Foe OCT-Are =12,863 F pats (66°BASE) IZ,e55°F AY Zi2 DAY =(ZF °F AT | ANG WINTER COcT-ATe)AMBIENT TEMP =G5°-Cl°=44°F DWE ACCTIC FIPE WILL BE INSTALLED MbevE GRADE itu Fite FITING -o%ES @ AVG AMBIENT Fok od ICNouse PIPE lo%=20.6 W/m @ BOC Flip ¢BE ANE. Zoey (BA PA)og)PHY BOR TEE BCR HORBZDFm Zt MToWeT PTOLoss==aeDITSWer.46°F O.\6 PTE ASUHE AVG Fivip TEMP =/74°F AT=174 -4°=/70°F fife Leet «[e00!Loss=O16ee U70°F)\Ze0'=SBMBH NG SD Ic Mollree FU PIPE losea [5.5 @ Wt 4 Be 5.5UNITLowe=O16 (2%)=012 Bete Les=0,12 (110)1200 =ZSUBH ZAMBH PiFFEZCENCE wilt TtoBAGLY NoT JusTiey GOW To FlvsFIFE-WILL BAGE Cares ON sTanPARD MIRE E - _'Wlejeq |SBlAwiIt not !1S.GRAY Hiei CALES Clout) Iwhe sie WI WX (HX-2)Fee ASOMRBA DELIVEREDWiemizeFuePLANTCHX-1)Fon 450 +34=48%MBH SELECT PUMP Foe iscaT 42 0.000.Sie =67 or(Soke Sie- get AIS AX 69 GFH Fluo S GPH Fee Clinic =7%GPA CHECK TEM Peer IN APING SYSTEM 23000RTRN LE4aaoe(5,60)7o GA IN 32°F ire recss peer =1:2"/o0"(=22"BAL)jo rv *2%*=326Y7100 ( G6"BAL) PMPs ENEZSY Leap fee S'PireE x F4-HP 3 Foe Zu"Fite ZI2 uP WILL se &Fife F-WH1IZ}/H Loo cize FoMP SsELEctTion HEAO:". PIPING -[\t00'STKAIeHT+SO Elgows CBEA ,+(00°VALVES,FLANGES,tHige|->/B00'x Lope?12 Aw Sea vatee-]STRAWER | HX-WHICA Fev)2.5 WxwiZCl rer>ZS 24° SELECT SRus0Fos Le 65-/L0 SPEED 2-2 To GING 24°TEXL4H,220vV,1h Whey eas SEL WH B-.GIZAN HYDRotics CALeS (ConlT.) Hy-wHLe SELECTion!420 MBH CArAR WILL LSE G&G TRT 3 cHaAnGER HX -|)HeT Sipe FoR NEw LueMiNS LTA DS 2 Ze2®HOT a10E For BUTER Boe SISTEM Wilt BE sizeDp weed)S4ir SNE Ses wit Protest Onit BE Bon IN PAR MLLEL Dotun HIGH LoadWHE.KIM ZS 156 peur)Fow sEeucf&.oe. Note #¥!/ Het sive -ENGINE OOTLET €CI1B6S°F -Figure 2°F CeoP Fee AVEC Hk £FITING -183°EwT Hof sive*](km 28>200 6M C193°F EWT @ ITO TW Five 2 TA MeeD, , HoT Sipe*ze (2412)|lo GIA @ /63°FET-r 1738 FE LWT Figvte lo.Max PD Coupe oe -Ty Fo GET 180°F usT (7 GH =[65 EuoT Fiovee \Fol Mam FP HX-wH2 severe 450 ABH CPractTy HeT SIDE 179'F EXT ,70 GPM ,165°WT eee Figvore ifst MAX FD, LOLID SPICE -CF-|GUvr pres UMS 65-390 ©ADs -DesiCAPANOTGIVEN-440 HEH @ 2ST XSO GPM WHEH IoC ASovul mMpfowT OF FOXP CoRVEe -WiLL USE So ofA AS Beois THEY FoR I76°LWT,SOG,Ise°tewt Fidevre |Poi PRESSURE DRoP ) NoTe #£/-AVEe INTENIT 15 TO ConTRoL ENGINES @ /95°SvILET) TEMP BoT |W FEALITY TEMPS ABevVE /85°F AE PACE SEEN IN FrerO--Will serecT 4-147BASEDONCONSERVATIVE126°F ODTLET4 IF /25°OUTLET 19 AcHievVED?SYsTen,FER Fer-nswe #PAHTYOFWASTEYEATDELIVEFEOWILLBEIMPRO/ED || 1/2 [IE |SELAwin WH B.Giza?nNHYpRowies CeLeS (aonT) ET-WHL SELez Tien! _L_fire CAC=3.8 Ls1 (0-24 CAH)=0.44 ON er (Bonn Nom Fite) |OYoTen CATAL? |PiTE 1350"x b.44O8 VET 525 Hx<-\(Es)25 |AX 2 (Est)lO wie UE INITAL SYSTEM FILL TEMP =40F +€Fite Pressure==Z0 Pele wiePENSENTINGSoTele=MAx SYSTEM Frans =45 FaeNGTEMPOFFLUO=190°F CNA WHEN No PEWAD Foe WH) Por |90°%F waren (Gy-Epd=0,03z7|Loweeerions Factor Fok S0%GiYcow.Ey =|S55C2/90F Ceap MtertTaxe OL Vyas (Bu-Be Veg (En)=0.032 (G30)1.55 =Bt GAL icAL J-BET _0.419Pram|597ACLeriarveFactionAg=l a TeTa Thuk VoL ZEQD Vr=wes Bh 7S oa |SELeELT:AfeASTzoNG AX-|44V 77.GAL VoL.)34+GAL ACEP VoL Wk NOTE2 WILL HAVE TANK Preniavreep 7%SFSIG 4 Ail To1BTlsONSTEMwillMantaPositivePRessucePew7 -20°F Fivid TEMP'-NED Ze TS!%Aloo Fee TANK PARTIALLY Fur@ |8 TSsia nay | : . SLANE WH l/iz/9e B-Geay HYpRosicSs CAreS ConT) WATER FlAniT BAcyoP Heat FReM Pooler.B-2 CHID SINCE HT LOAD ESTIMATE FOR FUTOEE PLAST NoT AVAIL.W/L O\LE FoR FULL CAThHe OF Boiler.=@00 MB NEED Atmervaleé Frow Zo LiniT oT ptteese B-2 fo 20°F BELO,=s fBEE)2 6 Me Wilt WE Zo of HEAD FirinG /oo EQuv Fre (5fioo'Z HE-S raFlo ZoyTeot VALVE z e- ZRF-Ie Select GeoweFes ume 45-40 _sFeep2-TOGPAG SIDH,Iisv,Vaup,|& HE-S =FiGvRE GO GPM HeT s19E @ Zeo*F EWTNEESToTRIPEGoGPGiosILEeeIGOR LWT #NoTeE:Te FRovipe |1SOF LWT Woulro teQuiceLAcoe(4 sxrensive)HT EXcHanGeeR_-SinceTHIS19ONLYBAckoOPFoeB-l Faivze +WorLI>enity VE To CAREY FULL LOAD on FEAL Pesion DAY wiTit B-l #WASTE HEATOYSTEM_OWT OF _SERVICe THEN /O0F SuTPLyAVPEQUMTEFokEXTREMECovDITONTHATHASVEEXlowTeoBABIUTYOFACURRING. Stier:Yount F-606-Ay-IF B02 Hb Ceowee HAs CAPACD Kt NoTe 2:60 Gx Zo,Aczoss oirete@B2O00MEHWHICHIsUMITZo ANOID THERMAL Siueck., HX-WHS CUNIC Fieee BREN [O00 A ASSUME HEAT”Lond =45 BUY pA Tem Lear=4+5¢MRH SEtectT:ALPA-LAVAL CB76E-H nt ||9 /9%|SEA We &.GRAY AVEt SYSTEM CALrcsS: NofE:AT THIS TNE Nec HAG NeoT PERAJED ANAL Con FiGuiZAted OF COOLING SISTEN Fom SM MoDULE 4 NodDE OF ofeeatTioN (SINGLE OR TAReLEeL)FER.S4i2/s J uTLER BDe THEFEFOCE PLLUCATE COOLING Loor CALLS ChAwwWOoT BE TERFeremMed- BASED on FREUM ANALYSIS IT APPEALS THAT Booster. PUMPS VIL BE LEOQAUIRED QI -Boeihk LesiS> F-WH SELECTioS poT|ee BLDw Loom ASME THAT Both BFi2'>WitL ONLY BE ond iN pager DOING FEAL LOAD WHEN KTA 3@ 16 Down For SERviCeSoWILLDESIGNTSCAPTUREHEATFreemMmOnEMize , S412 CoolAnIT Flew =Ito SFM -wie site POM FER HO anTeENSVLESECENDARNFlen)DOES NoT ExXCEED PRIMARY HEAD!ASosume ZOO!(EUV)4 PIPE@-Bog =2' HxX-1 ()Pav)z" ToTa 4/ PELELT3 GCRONDFOS UNC 65-40 [10 GPM @ 4HEap .VZHP,1eV,1p F-WHS SELECT)SHI Mopure (458)Loor KTA DB LoolanT Fiew x230 GPA ,Te Fonp Zoot GP wilREQUICEAPreor |HP Fete POMPInG -SAce TMS with BE THE LEAD GENERATOR DUtiw©HIG SeASonI TS WOULD ConSUME Ax lof oF GLELTRCITY FeR.PUMPING --CHECK OT@ VAKious Fiews43%HEH ©Zoo GH =5.4°F 46S MBHE lO GIA =9.8 °F Stout BE ABE To MALE HX-witl bee WELL on)/0°OT AVEL ENGINES Witl NOT SEE /o°AT SINCE Flow)wit MIX WT BYTASS Fro cAaT EperTe PWH2!GRuNDFes UMé 65-40 Ilo Ge 4'HeaDVeHPSV,1h W/i/% || |Sbaikt wt B-Grayat Ageqic FiPE Frexisiviry GArscs DeMED ON SO°F INSTALLATION)TEMP 4 190°F MAX TEMPPATEExfesion=]./"Jloo'% LHELY.OFFSET ZEQD TD Arrod Fee EXPaNsio)BaseD on Bie.Fife FlexiSiritTy CALevraToR.Foe EAcH SECTION QooTe.OFFSETS Built INTO DEON HY SITE GwDiTioNs$)D FIFE Stetion |Levetrant)|Exe dn)|OFFSET Zep ATISFEDS|. D)watorre B ainie}|60 I]yt YY CLINIG To UTitipo®52 0.6 Io'"LM YY. TIL Do fe 90 1,0 4°x2""U"Y p HM 9).O 4'x2°Muy"X ¢u as 0.00 4x2""Use Y Dlutivipee16 wre Fawr |@d+2o |il WoL Y VN univee wh AwT |sz 0.6 lof LN ae SE€SueeT Z Foot LAYouT GF SECTIONS £OFFSETS KA h4N yc.1 SE) 10 er sf O80 ees vom185 a @220 0 cemreote20es SEtAwWIELWHN/n (94 AeAic Fife FlemBiLiTy CAres Wem 0704 wen.oo ewww PROGRAM RESULIS: Annual O&M cost:Qo (| Cost Estimate 170000 $[{Savings,year 0,gallons:} Fuel heat value:134000 Btu/gail.[) Fuel cost 1.26 $/galion [10 year B/C ratio:1.19 } Fuel cost escal.O year {20 year B/C ratio:2.38 | Power Increase 0 fyear [Pay back time,years 8.39 | Discount rate O /year [] GENERATOR DATA:KTA 2300 HEAT DATA SYSTEM LOSS DATA: Heat rate at kw-load above:85 2850 Btwkwh (SWAG)Constant losses: Heat rate at kw-load above:140 2777 Btwkwh Plant piping:O Bhyhr. Heat rate at kw-load above:150 2350 Btukwh (SWAG)_Interlor Arctic piping:0 Btutr. Heat rate at kw-load above:280 2250 Btwkwh Genset Eng.Preheat:34000 Btwhr. Heat rate at kw-load above:420 2074 Btukwh Total constant!SANT Btwhr- Heat rate at kw-load above:§57 2040 Btu/kwh . Heat rate at kw-load above:557 2040 Btu/kwh Variable losses: Heat rate at kw-load above:587 2040 Btu/kwh Extertor Arctic piping:250 Btwhr.xF Heat rate at kw-load above:557 2040 Btwkwh Plant heating:800 Btwhr.xF Heat rate at kw-load above:557 2040 Btu/kwh Radiator losses:50 Btwhr.xF Heat rate at kw-load above:557 2040 Btu/kwh GENERATION DATA PCE FY94 WEATHER DATA: Kwtymonth:HDD/Month:KOTZEBUE January 134549 2220 February 116265 1952 March 123586 2065 April 110296 1536 May 104830 1097 June 81491 651 July 78004 384 August 93078 443 September 108742 723 October 118997 1225 November 129064 1725 December 127053 2130 Included in Building Heat Load below N/A engine preheat based on 4 ea 2.Skw block heaters (10°3412)=34MBH Btu/hr 1350 ft of Arctic Pipe at .16 Btu/Hr/fUF +140 LF insuf'd 4"at .225 BtWHr/FUF Butler Building with uninsulated floor (approx 280 Btu/Hr/F w/Insulated floor) CALITER?OMT:Fuel use,Non-Boiler gallons Seasonal Seasonal Efficiency Building in use,1=yes,O=no Water Pint 11716 5000 75%1 1 1 1 1 Build.1 0 0 75%1 1 1 1 1 Build.2 0 0 75%1 1 1 1 1 Build.3 0 0 75%1 1 1 1 1 Build.4 0 0 75%1 1 1 1 1 Build.5 0 0 75%1 1 1 1 1 Build.6 1 1 1 1 1 Build.7 1 1 1 1 1 Build.6 1 1 1 1 1 Build.9 1 1 1 1 1 BUILDING HEAT DEMAND VARIATION:ELECTRIC POWER PRODUCTION VARIATION: Winter Summer Hour:January February March April May 0.049 0.049 1 0.038 0.038 0.038 0.038 0.040 0.048 0.048 2 0.036 0.036 0.036 0.036 0.037 0.046 0.046 3 0.034 0.034 0.034 0.034 0.035 0.044 0.044 4 0.034 0.034 0.034 0.034 0.034 0.043 0.043 5 0.033 0.033 0.033 0.033 0.034 0.041 0.041 6 0.034 0.034 0.034 0.034 0.037 0.040 0.040 7 0.038 0.038 0.038 0.038 0.037 0.039 0.039 8 0.042 0.042 0.042 0.042 0.039 0.038 0.038 9 0.042 0.042 0.042 0.042 0.043 0.038 0.038 10 0.047 0.047 0.047 0.047 0.046 0.037 0.037 11 0.048 0.048 0.048 0.048 0.039 0.037 0.037 12 0.047 0.047 0.047 0.047 0.047 0.037 0.037 13 0.045 0.045 0.045 0.045 0.048 0.037 0.037 14 0.047 0.047 0.047 0.047 0.049 0.037 0.037 15 0.048 0.048 0.048 0.048 0.048 0.038 0.038 16 0.048 0.048 0.048 0.048 0.048 0.039 0.039 17 0.049 0.049 0.049 0.049 0.044 0.040 0.040 18 0.046 0.046 0.046 0.046 0.047 0.041 0.041 19 0.043 0.043 0.043 0.043 0.046 0.043 0.043 20 0.038 0.038 0.038 0.038 0.042 0.044 0.044 21 0.038 0.038 0.038 0.038 0.040 0.046 0.046 22 0.041 0.041 0.041 0.041 0.039 0.048 0.048 23 0.044 0.044 0.044 0.044 0.040 0.049 0.049 24 0.040 0.040 0.040 0.040 0.041 Days:31 28 31 30 31 HDD:2220 1952 2065 1536 1097 kwh:134549 116265 123586 110296 104830 Av kW 181 173 166 153 141 Power year factor 1 Building heat-use per month,MBH ore Output)Year no.0 203710 184173 192411 153847 121845 Seasonal consumption,gts.:11716 0 0 0 0 0 Non-seasonal consump.,gls.:5000 0 0 0 0 0 Compound boiler efficiency:0.75 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 203710 184173 192411 153847 =121845TotalBoilerintput(Gal/mo):2027 1833 1915 1531 1212 okekekodekehotodoofkkhekedwhwhodotototoeehehekehnhetoh ]>=@BococcccceeketetodototowodotNeeeeeeeSeeeel129064 2%gBRocccccc0om3OPER. HDD 1 12 16152 1 12 16152 1 12 16152 1 12 16152 1 12 16152 1 12 16152 1 12 16152 1 12 16152 1 12 16152 1 12 16152 December 0.038 0.036 0.034 0.034 0.033 0.034 0.038 0.042 0.042 0.047 0.048 0.047 0.045 0.047 0.048 0.048 0.049 0.046 0.043 0.0380.038 .0.041 0.044 0.040 31 2130 16151 HDD1270531325955kWh171152avgimo 197149 1679885 0 0 0 0 0 0 9)ie] 0 0 0 0 0 0 0 0 i)0 197149 1679885 1962[-T67i5__]Callore January February March April May June July August Septembe Octob November (ATIOAT 1 243 229 217 276 281 220 208 261 311 22 25 Zs \2 223 273 260 285 282 197 186 235 20 285 2s 269 3 266 250 248 ZA 233 182 172 218 270 274 a 256 4 266 250 248 2A 223 174 165 210 29 263 277 256 5 283 248 236 224 223 174 165 210 259 263 266 244 6 266 250 248 244 -282 197 186 235 290 285 277 256 7 243 229 217 276 252 197 186 235 290 285 205 228 8 284 268 2S 241 271 213 201 253 301 307 296 263 9 284 268 255 241 299 244 229 287 274 279 296 263 10 335 316 302 284 261 267 251 32 300 306 346 312 11 345 326 311 293 271 213 201 253 301 307 357 321 12 335 316 302 284 269 274 258 311 308 315 346 312 13 315 297 263 267 277 282 265 319 317 324 326 292 14 335 316 302 264 285 290 272 327 325 33 346 312 15 345 326 311 293 277 282 265 319 317 324 357 321 16 345 326 311 293 277 282 265 319 317 324 357 321 17 356 336 320 302 309 251 236 295 283 288 367 331 18 325 307 292 276 269 274 258 311 308 315 336 302 19 294 277 264 Cw 250 261 267 251 312 300 306 306 273 20 243 229 217 276 290 236 222 278 266 270 255 225 21 243 229 217 276 281 220 208 261 311 252 258 225 22 274 258 245 232 271 213 201 253 301 307 286 254 23 305 287 273 258 261 220 208 261 311 282 316 283 24 264 248 236 287 291 228 215 270 321 261 276 244 216606 186443 197421 191182 200220 167903 163442 202895 213840 216284 218040 204140 2378417 MBHEquivalentBollerinput(Gal/mo):2155 1855 1964 1902 1992 1671 1626 2019 2128 2152 2170 2031 [23666]Gallons Average Heat demand per hour by month,MBH (total for all Bldgs) January February §March April May June July August Septembe October November December 1 325 325 307 283 194 147 111 118 156 209 276 314 2 314 314 297 245 188 142 108 114 151 202 267 304 3 302 303 286 236 181 137 104 110 145 195 257 293 4 291 291 275 227 174 132 100 106 140 187 248 262 5 281 282 266 219 168 127 96 102 135 181 239 272 6 272 272 257 212 163 123 93 99 131 175 231 263 7 264 264 249 206 158 119 90 96 126 170 224 255 8 256 257 242 200 153 116 88 93 123 165 218 248 9 250 251 236 195 150 113 86 91 120 161 213 242 10 250 250 236 195 149 113 86 91 120 161 212 242 11 243 243 230 190 145 110 83 89 117 157 207 235 12 241 241 228 188 144 109 83 88 116 155 205 233 13 241 241 228 188 144 109 83 88 116 155 205 233 14 24 243 230 190 145 110 83 89 117 157 207 238 18 243 243 230 190 145 110 83 89 117 157 207 235 16 250 251 236 195 150 113 86 91 120 161 213 242 17 26 257 242 200 153 116 88 93 123 165 218 248 18 264 264 249 206 158 119 90 96 126 170 224 255 19 272 272 257 212 163 123 93 99 131 175 231 263 20 281 282 266 219 168 127 96 102 135 181 239 272 21 291 291 275 227 174 132 100 106 140 187 248 282 22 32 303 286 236 181 137 104 410 145 195 257 233 23 313 314 296 245 187 142 108 114 150 202 267 303 24 325 325 307 233 194 147 111 118 156 209 276 314 203730 184191 192430 153863 121857 89341 68875 T4176 94590 131189 167642 197169 1680053 MBHTotalBoilerIntput(Galimo):2027 1833 1915 1531 1213 889 695 738 941 1305 1668 1962[[6717]Galtons 223 273 260 245 168 1422 408 tr!ASA 292 Bs rn)3 266 250 248 234 181 137 104 410 445 495 257 256 4 266 250 248 227 174 132 100 106 140 187 248 Bs 5 253 248 236 219 168 127 96 102 135 181 239 244 6 266 250 248 212 163 123 93 99 131 175 231 256 7 243 229 217 206 158 119 90 96 126 170 224 225 8 256 a7 242 200 153 116 88 93 123 165 218 248 9 250 21 236 195 150 113 86 91 120 161 213 242 10 250 250 236 195 149 113 86 91 120 161 212 242 11 243 243 230 190 145 410 83 89 17 157 207 235 12 241 241 228 188 144 109 83 88 116 155 205 233 13 241 241 228 188 144 109 8&3 88 116 155 205 233 14 243 243 230 190 145 110 83 89 117 157 207 235 15 243 243 230 190 145 110 83 89 117 157 207 235 16 250 251 236 195 150 113 86 91 120 161 213 242 17 256 257 242 200 153 116 88 93 123 165 218 248 18 264 264 249 206 158 119 90 96 126 170 224 255 19 272 272 257 212 163 123 93 99 141 175 231 263 20 243 229 217 219 168 127 96 102 135 181 239 225 21 243 229 217 227 174 132 100 106 140 187 248 225 22 274 258 245 232 181 137 104 4110 145 195 257 254 23 305 287 273 245 187 142 108 114 150 202 267 283 24 264 248 236 253 194 147 111 118 156 209 276 244teatdarescaimo:"not "eso aa "Stas "1838S es HSS THES TS "cea hunEquivalentWasteverH76066]Gallons Data table,use DATA-2 command [16086] with default values as shown: Year0fuelsaving,gals. =Year: 16086 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 Fuelsave:16086 16086 16086 16086 16086 16086 16086 16086 16088 16086 16086 16086 16086 16086 16086 16086 16086 $-saved:20268 20268 20268 20268 20268 20268 20268 20268 20268 20268 20268 20268 20268 20268 20268 20268 20268Discntd.:20268 8 820268 20268 20268 20268 20268 20268 20268 20268 20268 20268 20268 20268 20268 20268 20268 20268 Accumitd:20268 40536 60804 sw72 101340 121609 141877 6162145 =182413 =202681 222049 243217)263485)283753 =:304021 324289 344558Balance:-149732 -129464 -109196 ss#ete -68660 48391 -28123 -7855 12413 32681 $2949 73217 93485 113753 134021 154289 174558PB-years:0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 8.39 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 18 19 20 \Fuelsave 16086 16086 16086Fuel- Accumitd:364826 385094 405362Balance:194826 215094 235362PB-years:0.00 000 0.00 Sef wre [fe ae =ee eee ee es z een ae ee ee ee wee ee tew eee ee ee 7|Avec <yobase Van EAT LOAL _CAtgce ou C2ZOxK TxF')IWSSUME _VNINSULATED.COnmMENER,VAN. NET wae ¢Par Area ='ZOXE 1x2 +.ZoxDxz2 +2%Sto ae Se.2A ttmAs BE LAP ICTIATOn SAY AWR oi GovexWS xe213 Ce Se TOP BAIS Say FBO.ye (WiTH Ci eseleben =REM OS S/ray 8 ETaSil 74 INSvcatm =If TOA Elm 2 IZ oo Re NG ee ey oeOpeF2YX,C84=69,2 De Rtn eee (BO!oe SO owes SZ,Sty _BS Bk)rp Seletnk tow AY |eee eee eenpee ett ee _eelas COMMER.VAN INSLCRNAA CO COW 28 x Bex.pee-ASSU rR.ZY"tmseechnr.af.Yz ts cox Ply weop |€R=.FSBat..ae selhes,3 .2x.nm 16%¢.oo 7 L "T |OR Sypeo,tepa Botton Sax Plywrcop ee)ae.2eS'xg 2a freees |fi,5102 ,tp bBo Im :22x8.xK4==640pe 32 th =25 sucess ooaee-cee ee eeeee ae oe r ---ES =Sax x2 "(232 22.=Y&s¥rs---- Nails |Snes Se 2 f JOP |"FSe)setters Rist uae 2."WSJISSK anne Co yb iss eis =222 . eS Bennet)Bey 6 ¥1ST2900#KeSUE 42sueseTes4 blo es a -Hy a S =__)fe emloan ew pe.pea &CherekeaodBauerx19Juz_x YO wes x 1-so =/aBeobiteweo,lea,8350)+rw ere [tat SELNe Cy |AK oe _.lzlislsy- pute Bae.BLO6 econ_DASeeananr._ por teak.of DB-mec._iellelsq |iB =36 Sys '36 +jorsrs EN zie C _a ¢rot cya ct-\|BR eee ares Bxis'3\=Sus an 6.RIVK/S”@ (28 A=42.29%.--Sty ---$49 Pe ee =GR,ied ae6XDe|||| { -_-_-_ BA"Unb?:7 qs o>XYMee xxsuUt Lene.=eS [noth(aha ap x ye toon)pore / .Po | __les ae SER Seg OUT -1K2eSe KUST Kw PBS,|S ism ee [2 2 BIT«Sey Bvlls.x252Sfoetse_we ett oe ama See BIT ce ee ee .-KllB. SHE CoH (uex/s 'Fok |.EST'D Cost JO INSULArEN AVEC KRuTcCke Bere 1502 ¢¢COMTRINER UAE 47D COMMITS VAN 3 *UTSD t Vv f =P30 Bro Y2°COvasUNIWSUEJ le,1S)°F Day Quon R-ll nseann,=SS Br /ie-°F TAS Od.¢-(930 -88)Br |pe -oF KIGI ST tf DAY K SHEaii, 6allons Fue |QAve Da =B.2yxoF Brey @ (00,cc Br /ce 5-(Co ue S275 ge MNS Se me UAW NOT HEATED TO 70°FYee"CIURD i Sty OSE go -es f- [Arty AIOO -30020 getlears Srey |/ EF Core SE2urnve * BANCO gt x 1.26/gel >"S40 SimP@ pty heck?"4 ZBSe /3420 ion [Pn =[a't|Ger Rufkeg BLDG FLooR iwsocaAmgn !:Ysvo Rook<S19 |.ADD RII FeevR.(INSULATION Oe lig ze sO0S2 Qoice Frenple palace FE oh Au 3499 C.es2e)=22.53 EK os 3b )AMeane {"dly eee Foch 4 DOrmond puefaeBae174wingedReWl+l9 =Uile Upc |.c47:Bowe -fxs btoQRpate!=pA Qoiee=G49 ah)(.4629 -0473)(lors)2 «8.854Con+é { -(OW ow a 1 el =.d624Re216OFete SeBSSYIZE>LUIS =Gre SA4Auig WH Ah pean 7:le{z, WASTE HEAT FLUID Pump CALeE's @ -30F Giver:Grenaes UPc Go-/40 e@.Spo ZeMaxHRAO=SS'2O GPM 1[$S0 FEET OF Avene P,pe 2 GY gel/ot so/sD Prop Glycol |Ho =S34 eK .Wy 600 wt ASSu me *wH SysJer SeeT DI0-.C-%wFrF &So/so SoeuTYON =-3OF riAD!tY caw WH Bemp CP-wt)PewfpweFlLURe@--ROE rm)Hew Cows trp Cirner i Flow Trae pi 73 so/s>doe fhest/H20 2 -3OF ,Wise 300 cpsEADGerno DAS Ze i ,K <=66.Ss 1/cp3Sse66.5 /Erre [.e7 D>Hoge 30/197 =280 cautooles SHy-NEED 10 Gore -30F ,thee 600 Gal /106 0 =Gon, CO Miro.7O ALC Feo One Gircut @ -30F -C4 @ IOGPM ,Flicno,loss moducus =|,0 e@ $25 cean srt A Pe 1,P x $-6 =1oxl,o}=10 O?pov Jt00e! 1350'ALP XLS Fres cre =ta2s ea FT AP=e Ge?pat)(2,3!pst)zeozs*.$0'FoH|lov Flan GhunpfoS Cueve )o6Pme SZ 7DH Of a wereoeoT ry |,\/i>/95 |SELAWIE WH |B.Ctay Waste Mepis VENTUTion) HEPT GAN Te ofece -Figvre 190°F AIFEFEBQuiPSuRFAcETEMP490°F Sface Teme (100°sT) Fipwe |"Fieezéiess (2-35 a)Arc FIFE &HK HX -to (35 )2 F-11402 Si |Se0 BIOHfife-So Le (S#4'p)x30 He jean Bon VAWES,Ac.SEPAZATOR,ETC 2a99 BitFETALHEATREsSEZTio"I 3,080 ETH SIte VENT FAN Fee jo (Nope TENT 10°F AfovE AMBIENT) 5,200 _BtTor =CEMCrFeao=Trae 3E (pF)TO VFeWHL Salat.GrEEXECK sDE-10-24-pD 4d FH e "5,7,ISV,Vas HPF,1A Note?4@0 CFA wie GWE //°ST >Geer Erotert Peoive |IAx®INLET Pt with Hoop#THERMAL Tread - -SEL WI \/izq@loe |B Gray | WH Module CArce INTEWIme LOPS AolF +Oriree loYer G02 BOLF Bp vw «lover Boo 3 EB Toners 3eO ELF Tat wW/water 700HX-vWH [S20 _ 3400 FeoF LonO Csned)8x8 to%ZOO Meopuie (ESTnATer>Zoco+ Fovrttation CesTuater>/000 ToT 9000 + GescePp eon)ISMrH 2,2233 Win bb-ve nsar|La'. yr (40%xBxe')x 4'=10,240 Fria} \S00*(3')+Zee0'(4)=12,500 FI-1@D> TE Te Keer seit Beene load Beiow 100NEEDDSoPHIN-V$E ZEA 4°.12%Feotmad £Amer CHELY-WINTP LOAD Foe overte -Use 40%wine LonO Pitpnie SABLE WITHouT ZOvATWIG WEIGHT OF FIFING 4 Mist EQ@UIT -HELO Lows NOT FE VIED - 4 - See WH |iris BH.Geax argosnasa.eNenTwyWh HeDOLE Chics (font) Sela Four patio)BEAM Gp” Motor LO \2"Leno teri ,SS =-Ferrin'Fo x 12%Lene ANALYZE >SIMPLE BEAM W/CONCENTERTED LORD AT CESTER (lo4ervatvE>)£Figure 8 SPAN Between CenGee OF Feotiies 4500% M,-EV_4ee0*(2)f Mae B===960d FT-Le *L=3'7 FEM Hopvtvus (CS)LED=ares- 9000 F1-vs (1Z!Mer)o=24000HHyr -=45 |IN*® SELELT |WEXIS S$=/0 Wp”THis SHAT HAS GooSTABIUT?WITH 6"WDE FLANGE \ - |aw vt wh Mopur€CArtées (CONT.) Di VUSe *2¢4BTe HEM Fie For AUK Sieucr Mensees FER UEC FL= |C.Gray 4dlefse Ste RoorF NEMBERS SITE WALL NeNBEEss I3S50 fo|Fee LereveTivSe NMENBGERS,FV=75 rs Sno.)LopO =40 %SF Live LopO =/o feF Alec TIPE HALES] PEO LAD =S SF Tol laps 55 BF RE Jie eCl'se w=BGS)= ez +,rm 72 VT a Mn S87(iz)NAFPeinHePRERD$=EF =ei =S21 1s? acFoRZ2k0$7756 ">>2x6 CK Be Bendis,A=Slom |SHEAR LAD@ cat Ene -4.(8%)BFT =22¥ZHELE SHEAC- _3v._2(292*)UNIT SHeAe VJ =re =3.256s)=S53 21 <75 PFS|©2K6 OK Witte TRIM Wr 2%%Sure Fore ROOF PEAINALE So WILL, LSE 2xS8 Poor loisTs @ 16"Oe WALL Lao =40 fF (whip)Fee Ub vse 76%oF wind LOAD SWE NOT ConTinvevrs For stu @ Ib'on.,WH ue (0.75)40 =40 VE M oe =wht =to =3220 PTH 'B2o (iz)Int 3 .2 5 -eSectHopLerpsm72.04 IN For 2x4 $=2.06 N°>Ot FoR BRUDING CHELY.SHEAR Lono =+(40¥ér)SFr =loo* _BUbO*) _'V=Segeud AL fol <75751 >LS Z2x4¢e lLor i? Ctd A \y pe)=|B/y-los PB.GIZAY |wH Hepsre carts (tonT.) Ate Froot NEnBets FiGURE WotstT CASE lodkD 19 ARE OF HK-WH|,1S00%WEIGHTFieopep¢CCOoPY 3'x4+4 Area /So0*_ Wilt S\te EBxTI2E Freee foe 12S Tor For lost@ lboe W==126)=]67 Wer zNan=ere)=1333 FT# S =[Sed(2)ine _yy 3 Fon 2x S=/S14 WS?>2xO oF Foc Beacons LHELY-SHEAR Leaps &(LTADSFT=CaF S(4S*)Z.(0,BB IN*)Fe Fel >7TSPrel Fairs,SHEA- Che.SHEAR POR |2"O.c. LOnOD =+(125)2 =Sco* ve BCee0o*)_yo #5)erSpey2FATS LSE 213@ 12”Oc, nna,Aeeereesneo \ |GtelPo las |2/3/9e -%e-.-Grey ETE SELECT oN NEW EXxPAdsiond TANK Fae iiGh TEMP Boek (6-2)Steer SYSTEM CAPAC, se TifEe 200 LFx 0,36 "Ser 76 GAL 2°Tire 300 Lew O17 Aer =| eT wktee Cever.Tuses (BT)loBol-cw (fer 646 Guipe For Go ner)GO ToTA 327 G4 =Vz Wit VSe INtiaAL Fi Tenpe 40°F ¢Fic Pressure=I2@ FsfevFeTTn.= So TEI Poe Zio'F WATER (Ew-Ep)=0.039CoteectioFerSeeGixer©2Z1I0°F E,=/1,46 teap Aeerr.Vor.\pn 0.039(327GaA0 1-46 =/B.6 GE uf 26-7Tvs2-|/-e-.|,_e =Acceradce Facto A=!>=1-417 0.36 22Q0 Tent VOL Vp age =WC-52 Car SELELT.ARHSTEeNG AK-100V)S55 Gae Thnk VoL,22 GAL AEPT, Ak HD OD PAIDED ASEA BROWN B8OVERI The ABB system is a complete system fortransmissionanddistributionofdistrictheat- ing,but it can also be used for district cooling and the transmission of crude oil.Many year's experience and constant development work has given us great knowledge of designing and installation of pipe systems.The ABB sys- tem is a standardized and tested system,com- prising all the necessary components. All over the world many thousand kilometers of buried ABB pipes and fittings are evidence of the great reliability of the system and its strength under all climatic conditions. Reliability and long lifetime Security is the key word for the development work.And this means that all components are simple and robust.This ensures a correct installation and very good resistance to all underground influences. As a result ABB has developed a unique fitting system with taper lock muffs for the joints of small pipe dimensions and band muffs®for large dimensions. At the same time an ABB system has less joints than cther traditional systems.As an added safeguard the ABB system can be sup- plied with an integral surveillance system which monitors every metre of the pipeline electronically and indicates automatically if a fault has occured in the network.Analyses of ABB District Heating many projects prove the great effectiveness of the surveillance system.Pipe systems with the surveillance system have very low operational costs because any damage is discovered before corrosion of the steel pipe occurs. The quality of the products is ensured by an integrated quality control system which has been designed according to the requirements of the international quality standard ISO 9001. ARR Nictrict Harting AIG Fradarnia MW Tal s4B TENDON |from 4 0 REID Nw 1.280.1995 17889 P. wit Alfa-Lavai Thermal,Inc.;LX -lA)HHVACSpecificationSheet0 Custamer:BOG ENGINEERING Project:SELAWICK WASTE Item No:HKX-WH1 Location:ALASKA Inquiry No:End user: Cus.Ref.No.:BRIAN Date:01/20/95 0 Hardware Specifications Alfa-Laval PHE type:M10-BFG Connected in parallel:1 Design pressure:150 psig Gasket material:Nitrile Plate material:AISI 304 Connection diameter 4"in Performance Conditions Fluids:Eth.glycol 60.0%Prop.glycol 50.0%Flow rate per exchanger:110 70.0 UsGpm Temperature at inlet:183.0 163.3 °F Tarperature at outlet:171.5 180.0 "F Pressure drop:0.972 0.411 =psiHeattransfered530.0 kBtu/h Log mean temp diff:§.17 °F Physical]Properties Temperature:177.2 171.7 °F Density:64.5 62.3 Ib/f£t3 Specific heat:0.811 0.905 Stu/lb,°F Thermal conductivity:0.213 0.216 Btu/ft.h,°Fviscosity:1.14 1.02 cP Dimensions &Weights Overall Length (C):See DrawingWidth:18 1/2"in Height:38 5/8"in Volume:1.17 1.17 ft3 Shipping Weight:1000 [S002 lb UNIT 18 DESICNED,TESTED &STAMPED IN ACCORDANCE WITH A.8.M.E SECTION VIII,DIV.I. ae qliles Nad C230 Ma .3 Designed,constructed and stamped in accordence with latest ' IAS A.S.M.E.code and addendum.be Rear Side Frony Maekawa 3af 'e AMD)ae ee- T Ts e @O"O!a 'e e oe ea1||144 dor 'Ps4 siq'o UrAeap 'sg toaie(0 c :.aE ©q 41giaEbsal'|T T3 ¢iol FS Cr A I fFaHDe2,°G Spo iti j ve]-s ”T "3 78 saction 3833/8°(s)=Studded Pert .Four (4)3/4”dia.'174°?)8 2 18"'oO UNC,(74)Studded Port41/4"(108)long.. 7 9/32"(185)dia.Elgnt (8)5/8”dloBoltCircle.<q 3 3/4"(98)long. 7 1/2°(190)dia.8 +;. 11/16 (840)Three (3)1 1/8”dia.Holes Bolt tide 4 PRE |c1089)(29) i 167 (reeo)2 3/4170}Te ene,A m See Plote Computer Printout Dimensions in parenthesis cre millimeters (mm). Connections Function Material size Reting4\£T!-Hotside In ato.s"©15042a[rz Hotside Out 4"©1504 43 Ceoldside in 4"©"5044+Coldside Out 4"©1504 "Tetauw Raresa RE BoTA UeT 42npt*ts:.ITZVaseZ2rBORubtets.on The Feane Notes:©Teport connections ory:Specially designed 4”,1504 rated lop joint flanges are suppliedwithunit.These flanges must be used on your p'oing connections. Customer:Design Press./Temp.: P.O.No.:Mat'l Plates /Geskets:'item No.:Lix-totly #Plates Actual /Mox.:' A/t Ord,No.:Weight Ory/Flooded:3A/L Ser.No;For Mfg,Only,LC/LT: -5 1 by BCT |Multipass wen'ad ayyM10-BFC Alfa Laval Thermal Ine.Seer BEG Manufactured n Richmond,Virginio yt erPlateHeatExcnongerOng.Now ote Reo "d 6Osrt séét°az*t AN O138 0 B WOSS Alfa Laval Thermal Inc.Lb y PLATE HEAT EXCHANGER SPECIFICATION SHEET FOR MODEL M10-BFG Furnish as shown on the plans,a Plate and Frame heat exchanger as manufactured by Alfa Laval.The Plate Heat Exchanger Manufacturer shall not subcontract or purchase fer resale the plates.He shall press his own patterns of plates. The plate and frame heat exchanger shall consist of pressed Type 304 stainless steel plates as to provide the required heat transfer area to meet the operating conditions specified.Each heat transfer plate shall have one piece molded nitrile gaskets.Gasketing shall have relieving grooves to prevent intermixing of fluids and causeleaktoflowtooutsideofunit.Non-glued (clip-on)gasket system shall be provided, Each heat transfer plate to be with herringbone corrugations to optimize heat transfer with nominal pressure losses.Corrugations to be designed to provide support to adjacent plates at evenly distributed support points to allow pressurization of each circuit to a full differential of 1.5 times the design pressure for one hour without buckling or deformation of the heat transfer plates.Plate and frame should be designed so removal of an individual plate is possible without having to remove any plates in front or back of that particular plate. The plate and frame heat exchanger shall be designed to perform the capacities and pressure drops as shown on the schedule,Plates to be 304 stainless steel with II B finish and tapered gasket grooves. The heat exchanger shall not use welded frame assembly.Entire frame shall be bolted together to allow unit to be field assembled to permit rigging into place.The unit cover plates shali be of sufficient thickness for thedesignpressureandcoderequirementsandshallhavenoweldedreinforcementsorstiffeners.All steel surfacesshallbethoroughlycleanedandpreparedforpainting,painting over mill scale is not acceptable.All steel components shall be epoxy coated.Provide lifting lugs designed to allow lifting of entire units flooded weight. The compression bolts shall not require special tools and shall be arranged to permit plate pack tightening at tixed cover only.Bolts shall be provided with rolled threads to reduce galling and double width hex auts to adequarely distribute the load. To avoid leakage on port area,studded port design should be provided. The complete assembly to be factory assembled and tested in accordance with the ASME Code,Section VIII, Division I,and furnished with ASME Code and Stamp,certification (U1 Form)for a design pressure of 150 PSIG for both circuits.Provide aluminum OSHA shroud around plate pack. 'd SGret Geet acct PN O13a ae WOad r prom @ 0 REID Nwi ps Fyt Alfa-Laval Thermal,Inc. 11.20.1995 17:18 HVAC Specification Sheet 0 Customer: Item No; Inquiry No: Cus.Ref.No.:BRIAN 0 BCG ENGINEERING HX-WH2 ia Project: Location:ALASKA End user: Date:01/20/95 Alfa-Laval PHE type: Connected in parallel: Design pressure: Gasket material: Plate material: Connection diameter Hardware Specifications M6-FGEN 1 150 psig Nitrile AISI 316 2"ain Performance Conditions Fluids:Prop.giycol 50.04 Prop.glycol 50.0% Flow rate per exchanger:65.0 50.0 UsGpm Temperature at inlet:179.0 156.2 'F Temperature at outlet:163.6 176.0 "F Pressure drop:0.832 0.536 psi Heat transfered 450.0 kBtu/h Log mean temp diff:4.90 °F Properties '|Terperature:171.3 166.1 °F Density:62.3 62.4 lb/£t3 Specific heat:0.904 0.902 Btu/lb,"F Thermal conductivity:0.216 0.216 Btu/ft,h,°FViscosity:1.02 1.09 cP Dimensions &Weights Overall Length (C):See Drawing Width:12 19/32"in Height:36 1/4"in Volume:0.720 0.710 £t3 Shipping Weight:500 Ib UNIT IS DESIGNED,TESTED &STAMPED IN ACCORDANCE WITH A.S.M.E SECTION VIII,DIV.1. Io plodes nerd |o4 may SELAWICK WASTE Designed,constructed and stomped in accerdance with latest A.S.M.E.code and addendum. Sid Eront Alte Laval 4"(100) r - -S$¥4 r(9 HT)IO ©--.l ps4 S$!1|ie ef 13 -|&ale a°|" q |4 bS3 S29 alll ,«PEERSPeNLS (t;-=SS,2g Tazo!AigAtima|---|fone |5 1 2"1 3/16"1 3/168"\/ (39}(3)J -¢'40) Ecct'ng 12 5/8" B *3/16"(39)(320) re r "BME ¢bre em =1g (68)Two (2)1 1/8”dia.notes.h 665)(28)mq fe(903)2 2/4"(70) oes)A m See Plate Comouter Printout.Dimensions in sarentresis ore milimeters (mm). conan ; Hotside In a,2"NPT Hotsice Ou:_2”NPT Coldside tn 2”NPT Coldside Out 2°NPT Notes:\Sle FU wt,/Wet Ween Customer:Cesign Press./Temp.:P.O.No.:Mat Plates/Goskets:,item No.:tly core #Plates Actual/Max.:. A/L Crd.No.!Weight Ory/Flooded:_A/L Ser.No.:For Mfg.Only,LC/LT:.S Pa fev,yescriplion Oras Jule MB--EC Alfa Laval Thermal Inc.|VIO -2 Monufoctured in Richmona,Virginia |5}ote eneck wale attePluteHeatExchangerOwg.no?GOI0G-150 "0 as ZHtdt S66t cast AN QI3a 0 &WOad Alfa Laval Thermal inc.hb: PLATE.HEAT EXCHANGER SPECIFICATION SHEET FOR MODEL M-SFG Furnish as shown on the plans,a Plate and Frame heat exchanger as manufactured by Alfa-Laval.The Plate Heat Exchanger Manufacturer shall not subcontract or purchase for resale the plates.He shail press his own patterns of plates. The plate and frame heat exchanger shall consist cf pressed Type 316 stainless steel plates as to provide therequiredheattransferareatomeettheoperatingconditionsspecified.Each heat transfer plate shall have one piece molded nitrile gaskets.Gasketing shall have relieving grooves to prevent intermixing of fluids and causeleaktoflowtooutsideofunit.Non-glued (clip-on)gasket system shall be provided, Each heat transfer plate to be with herringbone corrugations to optimize heat transfer with nominal pressure losses.Corrugations to be designed to provide support to adjacent plates at evenly distributed support points to allow pressurization of each circuit to a full differential of 1.5 times the design pressure for one hour without buckling or deformation of the heat transfer plates.Plate and frame should be designed so removal of an individual plate is possible without having to remove any plates in front or back of that particular plate. The plate and frame heat exchanger shall be designed to perform the capacities and pressure drops as shown on the schedule.Plates to be 316 stainless stee!with II B finish and tapered gasket grooves. The heat exchanger shall not use welded frame assembly.Entire frame shall be bolted together to allow unit to be field assembled to permit rigging into place.The unit cover plates shall be of sufficient thickness for the design pressure and code requirements and shall have no welded reinforcements or stiffeners.All steel surfacesshallbethoroughlycleanedandpreparedforpainting,painting over mill scale is not acceptable.Al!steet components shall be epoxy coated,Provide lifting lugs designed to allow lifting of entire units flooded weight. The compression bolts shail not require special tools and shall be arranged to permit plate pack tightening at fixed cover only.Bolts shall be provided with rolled threads to reduce galling and double width hex nuts to adequately distribute the load. The complete assembly to be factory assembled and tested In accordance with the ASME Cade,Section VIII, Division I,and furnished with ASME Code and Stamp,certification (U1 Form)for a design pressure of 150 PSIG for both circuits.Provide aluminum OSHA shroud around plate pack. g 'J ...fer1éet Séetrazt MN OI3d QB WOds if£ yl rrom ©&RETO +y Alfa-Laval Thermal,Inc. HVAC Specification Sheet 0 TWH Customer:ECOG ENGINEERING Project:SELANICK WASTE Item No:HX-WH3 Location:ALASKA Inquiry No:End user: Cus.Ref.No.:BRIAN Date:01/20/95 0 Hardware Specifications . 2X¥2+OFAlfa-Laval PHE type:CB76-H exc?& Connected in parallel:1 Design pressure!150 psig Gasket material:Brazed Plate material:AISI 316 Connection diameter 2°din A°T Performance Conditions Fluids:Prop.glycol 50.0%Prop.glycol 50.0% Flow rate per exchanger:§.00 §.00 UsGpm Temperature at inlet:179.0 153.7 'F Tearperature at outlet:159.0 173.5 °F Pressure drop:0.472 0.414 3 psi Heat transfered 45.00 kBtu/h Log mean temp diff;5.42 "Ff Physical Properties Tarperature:169.0 163.6 °F Density:62.4 62.5 1b/£t3 Specific heat:0.903 Q.901 Btu/1b,°FThermalconductivity:0.216 0.216 Btu/ft,h,°FViseosity:1.05 1.12 eb Dimensions &Weights Overall Length (C):Sea Drawing Width:0”in Height:0”in Volume:0 0 f£t3 Shipping Weight:lb UNIT I8 DESIGNED,TESTED &STAMPED IN ACCORDANCE WITH A.8.M.E SECTION VIII,DIV.I.mae r oeaesope!No sharp edge Easy to handle Brazed Plate Heat Exchangers the Next Generation For Oil Coolers *Laser Coolers ©Air DryersEvaporators&Condensers *Subcoolers &Desuperheaters Last plate and end cover plate sealedNoriskfordamagescausedbyexternal freezing at low temperature. Front cover plate guiders -Reinforcement of plate corners -Exact assemblyMinimizedtolerance n, All units have parallel flow Easy piping New and improved connection design-Increased allowed torque Ruy.State-of-the-artFORREFRIGERATION"Fixx.production methods give:First plate and front cover plate sealed Flexibility -No external freeze risk |-Short delivery time -No air pockets -Highest quality pSB52..-6876.|e &ALFA-LAVAL ce em es my AT IW Ao Brazed Plate Heat ExchangersTheNextGeneration DIMENSIONS Standard Data CB14 CB26 CB50 CB76 ian working temperalure,|£50319EYAWN [SPECTBOWEaNee [amaNeSIORaa ROG ed OTST Max.working temperature 437°F 427°F 437°F 437°F Min.working pressure ..Vacuum,....dat Pi tlene cinta YRGUUT a Satain .Minn:Vacuum eet eee Pee VacuumMax.working pressure 435 psig 435 psig 377 psig _+138 psig Test pregsure:=.asp.|50 £882 palo his,|ae DRA PeOTS EGaS88 PSO Sat:Mc fbae op 682 psg=Vclume /channel,gaitons 005 gal..013 ga!024 ga:.066 qs! Max.flowrate”).|.VEGRONL.eae PasionFQORIDemreatlenn.|retecteiena0ORM,0.|ees..18090M Standard No.of plaies 14 10,18,24,34,$0,70.100 |'0,12.16,18.20,24,30,38,$0 |2430,£0,§0.60 70.80.90100ee+»water at 16 [ps (connecron veiocily) 0 Width BC fa-=onng|Depth |i $3,S4 $1,S2 (Mss |'Wi 1|Bo C mo A Height .\Conn& ae 3813 =:L-A91486 , Svilable for ali types of rafrigerant except ammoria. Certitied by Underwiiters Laboratory AE rrrern,Canadian Stardards Association. AMAT An ' AEH 33332 .I oe ate ne Measurement In Inches DIMENSIONS {nN &number of plates) Type A B Cc 0 E Weight (ibs.) :eS SPETERTASee(7 vay Seite :ES ReeET-,(CB14,hcir:[albu 6G wt |SERRA Zase HRaefateDe [BIS (TOS)E.|SAAT6$.(n.x.13)CB26 t 98 2.0 122 f 44 40 +(nx .O9)2.2 (hx 22)"A CB26 Hibs [SEESBS RELA ORS |RI RRS AAAS OS RUNS |SEC 2S a x 222)" CBe6EM |96 |20 N0edesgsag i oneaen,[ec AO 8 X09)|2:2&(Ax 22)CB80 8 P18.|SSR PASH Sea TR [38%Un 08)POs (nx 37)owe>C876 H 20.4 3.6 243 76 554 (nx.11)15.4 einx 1,0)CBIGA,|>.20.4..],tb 3.6.|sai 224 3s SAN.RIE SS 9,(XEN)218.4 #(x 1.0).CB76E 20.4 3.6 24.3 76 55 4 (nx CO)18 44(nx 1.0! O ALFA-LAVAL THERMAL Alfa-Laval Thermal,Inc.©Heat Transfer Center ¢Richmond,VA ©Tel/804-222-5300 ©Fax/804-236-1303Affa-Laval Ud.,Scarzorough,Coroda ®Tel/416-259-6101 ©Fax/416-297-8690 SsORCERNOF439Alfa-Laval S A de,Mexico ©Tel/+5 565 3806 ©Fox/+5 565 5544 z |ENGINEERING TEL :296-242-5126 Jan 18,35 Siac WOU,Fa QU OTATION Dehn Engineering Sales Company FROM _P.O.Box 68183_Phone 206-243-3123 | Seattle,WA 98168 Fax 206-243-3124HEBRepresentativesforYOUNGRADIATORCOMPANY TO BC G Engincering .DATE__January 18,1995. coe .REFERENCE.__Retrofit Anchorage,AK (907)338-3035 T/F ATTENTION Brian Gray QUOTATION $-95043 Thank you for your inquiry to which we are pleased to respond with the following SHELL &TUBE HEAT Ex-CHANGER recommendation.Please advise if further information is required.Please contact us for all your HeatExchangerrequiraments.Any order resulting from this quotation is subject to acceptance and approval of thehomeoffice.Uniess otherwise specified,ali products will be furnished with one coat of gray peint. DESIGN FOR \SAVIG@.0.eeeeen f Shell Fluid.cscs eee eee ee eens 50%_PROP GLYCOL \/... Flow Rate voc.eee cee vev evens 60 gpm \.60...gpm gem inlet Temperature ...........200°F \290°F/F Outlet Tamporawre .........170.3°F 170.3°R F Tube FIvid ...-citesevenevens i ee : Flow Rata ....2...eee 60 gpm §0 m :gem Inlet Temperatura .....2.2...130.99 F 30,OFF F Outlet Temperatura .........160°_F j6oe/F F Heat Loads...see eseteeees 800.000 Bwu/hr |ANN goo /_Btu/he Btu/hr Fouling Factor...0...cee eee 0.0010 *Oo ony a.*. HEAT EXCHANGER iMOG..secescececeeecesseens:F-608-AY-iP HF-809+AR-2P , Surfaco Aroa .2.2...cee |.sd sat 1 4 sqft sq ft Tube Diameter .......406.0000.1/4 in:3¥/8\__in.in. Snell Pressure Drop.......eee 1.9 psi /4\1 psi psi Tube Pressure Drop........00-oe wma a psi /__13,\43_psi ps! ONTIONB.2...ceceeeeeee \ L \ [\ L a Net Price Each........eceeaee 61,274.00 y 2,515,000 $ Lot Size...eect ce eee rere ees l a |\ Shipping Weight Each.........180 tb '420 Ib Ib Loadtime or Stock Available ....2 =3 WEEKS 2 -3 WEEKS ' Shipping Point...--|SEATTLE,WA SFATTLE,WA verrices quoted are F.0.B.shipping point and are subject to regular terms of 30 days net on approved credit.Product is covered byourstandardwarranty.Prices are firm for acceptance within 30 days of quotation dete and shipment within 120 days of orderreceiptdate.Later shipmonts will be subject to prices reflecting then current labor and materiel costs.Prive does not includeState,City Sales,or Use Tax to which this material may be subject.Lot prices quoted spply toquantities authorized by customerandacceptedbyYoungRadiatorCompanyforshipmentatonetime.Stocked ttems are subject to prior sale.Leadtime indicatesperiodafterreceiptofordorordrawingapprovelHfrequired. "hr 9q ft -F LMTO/Btu Enck:Form 3008 °Form 3021 Quoted By:_PAY. 4 i] CC:Young Kadiator Company.tndurtenl Division Signature:....s YOUNG RADIATOR COMPANY' 2825 Four Mile Road «Racine,Wisconsin 53404 ; ®Racine,WI «Lexington,TN «Centervilie,JA Form 2756 Rev.3-89 . ° J > DINENSION DRAMIDIS Camtorser PPT F _Bo U-NPTF >oe YIN OUT 4 Cant Order No ver oe 5 PAINT -ONE COAT PRiMER GRAY ENAMEL"ZINC ANODE ONLY WITH CN AND CNT OPTION CODES. Y.&Co.Order No. ¥.R.Co.Port No. Y.R.Co.Model No. Per Oat?af aR]-_SHELL TUBE OPERATING PRESSURE 150 psi 1150 ps TEST PRESSURE 250 psi 1250 pw MAXIMUM OPERATING TEMPERATURE |350F |350F MODE.A B Cc D E F G H J L M N P R Ss T U F-602 6.12 |24.00 $7.50]1462 |469}4 &3.75 1.31 |21.38 |475 7.25 2.50 2.00 38 «|18.38 50 3.00F6036.12 |3288 |7.50 |23.50 |4.69 469 3.75 1.31 |30.25 |4.75 7.25 2.50 2.00 38 |27.25 50 3.00 F-604 6.12 |41.76 |7.50 |32.38 469 4.89 3.75 1.31 39.12 |4.75 7.25 2.50 2.00 Je 36.12 5O 3.00 F-608 6.12 |59.88 |7.50 |50.50 469 4.69 3.75 1.3)57.25 |4.75 7.25 2.50 2.00 38 |54.25 50 3.00F-608 6.12 |77.76 |7.50}68.38 4.69 4.69 3.75 1.31 75.12 |4.75 7.25 2.50 2.00 .38 72:12 50 3.00 YOUNG RADIATOR COMPANY,RAQNE,WISCONSIN 53404 F-600 1 PASS FORM 3008 'Series 200JUMC/UPC365 . submittal Data.#WHl 60 Hertz Wet-Rotor,In-LineGRUNDFOSSingleStageCirculatorPumps - JOB or CUSTOMER: ENGINEER: CONTRACTOR: SUBMITTED BY:DATE: APPROVED BY:DATE: ORDER NO::DATE: SPECIFICATION REF.: |QUANTITY |_TAG NO.MODEL NO.GPM _|FEET |VOLT |PHASE COMMENT Technical Data Mounting Positions FLOW RANGE:15 -160 U.S.GPM HEAD RANGE:2-55 FT.- MAXIMUM WORKING PRESSURE:145 PSI FLANGES:2'4”ANSI 125 Lb.R.F. MINIMUM TEMPERATURE:60°F (15°C)rosMAXIMUMTEMPERATURE(Open Systems):140°F (60°C) MAXIMUM TEMPERATURE (Closed Systems):See below r@:Amb.Air Ternp.104°F (40°C){122°F (50°C)|140°F (60°C)|150°F (65°C)Max.Water Temp.|230°F (110°C)|212°F (100°C)|194°F (90°C)}|185°F (85°C)0 20 NOT Mouat Motor SnaninVerticalPosition Dimensions Type Designation UMC65-40 _|[__Maximum head inCirculatorpumpmetersx10 Nominal diameter M =4-pole motor --of ports in mm P =2-pole motor C =3 speeds :LeeA =1 speed Weights NET SHIP.SHIP. PUMP WT.WT.VOL. TYPE PH (LBS.)(LBS.)(CU.FT.)UMC65-40 1 49.5 53.5 1.9 UMCE5-80 5 66 70 19 UPC65-160 3 70.5 74.5 19 Electrical Data and Dimensions NOM.HP AT SUC. MTR.SPEED:DISCH.DIMENSIONS IN INCHES PumpTyee [112 13 |PH VOLTAGE size |61 |B2 |63 |Bs |or [02 |03 [O4 |oS |wt |He |wad 7 UMC65-40 Y"Vz}%41%1 116 2%3%[|Sue ft He |B%e |2%14's]5%The %Be |PAs |12'%12 umces-60 |%@ |%|%s 208,Bid 460"2%|3%15'%e|'%e |%e |2%|4%el 5%|7%e |%|3%|10%0!13%|12 upces-160 |%11 [1%VY 208,za00ragor |2%|3%[5 %e|He |ome |2%[armel Sv |7%]%|o%e |10%]13%'ati -NOTE:*460 volt models are single speed only. performance Curves (60 Hz -Single and Three Phase Models)ume 65-40 UMC 65-80 f-Why UPC 65-160iSinglePhaseePhase 67 -Sin le Phase _Co Re7 ToT ue LOZ]tian as POPRSEETS 7eeTATSINGLEPHASE+HH ET SinGte PHase |bea=fn rf 2 2 SINGLE PHASE}-+++TSpeed11150APM ale TOTTI Speed11000RPM[1 Py one Gone Gee -[Speeq+2000 APM |.|4 mm Speed 2 1440 APM}+eneeee ee {Speed21300APM}wewdowchewegesags Speed22540 APM{. 5 +1+1--+}]Speed 31650 RPM +T+]Speed 3.1570APM4 Pep pirp:-{Speed33030RPM}-bt 3 TT 24 a "aEe;> I ;pee mma Foot.se dese pee dees--an aS ane a _oe sedebegeeefeeboJ:t++»zeaee +4+}+ao f+3 aN Sateeet SESSESSREOSidoeaeaSS4>ttt peep =sqrt paca Expasens t c XG!t t 1G , £o LS tH Q > musenes set g SsZfeNTTtwW5jtWwwv4x=x H 4 ;t xz *st rf . ]. Me aN * t TT S TT *T N X 4 :t x 8 4+ pase :'é aenues bona 5 TPsesesssassedsostlcostpoteS EE01023040SO6070890100110$20 130 140 0 20 40 60 80 100 120 «140160 0 20 0 WM FB 10 120 140 160 1K CAPACITY (US GPM)CAPACITY (USGPM)CAPACITY (US GPM) UMC 65-80 UPC 65-160 Three Phase 6a Three Phase MINIMUM INLET PRESSURE*2 0 UGRESSSSESESl pare Genes eee ee _. -+THREE PHASE THREE PHASE j.FLUID TEMPERATURE 28 Speed 1 790 APM 7 Speed»seeo RM te167°F 194°F 250°F Soned2 1420 RMI 71.|Spee03 3370 APM(75°C)(90°C)(121°C)a pasauoessussee:ena 1.65 Ft 13.2 Ft 54.2 Ft +AaerttrtesHistiety oo PeicberhoctpestNyc hohe. 5M 4.0M 16.5M RRB CRE SSEEE _.7PSI 5.7PSl 23.5 PSI =CAN ee zolt:Nol Wee Pat<{;a4 44 4 +<z ttt Att rages £ td poesceoswens caveat ottttt}"he coe =8 ,. AN AN LimiyTrf bw S 1Ani;arc tes seasaesi-\isaa aaebaas THT oer bene pee eenREECEEMENESEbpp: Q 2 Ct)6 6 1100 120 140 160 o 2 4 6 8 100 120 140 i166 180 CAPACITY (US GPM)CAPACITY (US GPM) MINIMUM INLET PRESSURE”*MINIMUM INLET PRESSURE" FLUID TEMPERATURE FLUIO TEMPERATURE 167°F 194°F 250°F 167°F 194°F 250°F(75°C)(90°C)(121°C)(75°C)(90°C)(121°C) 1.65 Ft 13.2 Ft $4.2 Ft 18.1 Ft 29.5 Ft 70.5 Ft -5M 4.0M 16.5M 5.5M 9.0M 21.5M .7PSI §.7PSI 23.5 PSI 8.0PS!12.8 PSI 30.6 PS! *Minimum gauge pressure required at the inlet (suction)to insure effective,trouble-free operation.Varies by fiuid temperature. Materials of Construction DESCRIPTION MATERIAL DESCRIPTION MATERIAL Impeller,impeller seal ring,bearing plate,AISI304SS Rotor end caps Copper or brassrotorcan,bearing retainers,rotor impeller,Upper and lower radial bearings Aluminum oxide|rotor cladding,split cone,and split cone nut :CeramicShattAISI305SSThrustbearingMetal-impregnatedShaftbearingjournatsChromecarbide/Tungsten carbide carbon Pump housing®Cast iron O-rings and gaskets EPDM Stator housing Aluminum Terminal box Advanced composite "Bronze -optional 7GRUNDFos|" GRUNDFOS Pumps Corp.*2555 Clovis Ave.»Clovis,CA 93612SupportCenters:Allentown,PA »Atlanta,GA L-200-TL-065 |389. PRINTED IN US - Series 200 "UMC/UPCWma65: F-WHZ&Fwd 60 Hertz Wet-Rotor,In-LineGRUNDFOSSingleStageCirculatorPumps JOB or CUSTOMER: ENGINEER: CONTRACTOR: SUBMITTED BY:DATE: APPROVED BY:_DATE: ORDER NO.:DATE: SPECIFICATION REF-.: QUANTITY |TAG NO.MODEL NO.GPM _|FEET |VOLT |PHASE COMMENT Technical Data Mounting Positions FLOW RANGE:15 -160 U.S.GPM HEAD RANGE:2 -55 FT. MAXIMUM WORKING PRESSURE:145 PSI FLANGES:2'%”ANSI 125 Lb.R.F. MINIMUM TEMPERATURE:60°F (15°C)OoMAXIMUMTEMPERATURE(Open Systems):140°F (60°C) MAXIMUM TEMPERATURE (Closed Systems):See below HOAmb.AirTemp.|104°F (40°C)]122°F (50°C)|140°F (60°C)|150°F (65°C)Max.Water Temp.|230°F (110°C)|212°F (100°C)|194°F (90°C)|185°F (85°C)Recommended Optional DO NOT Mount Motor ShaninVerticalPosition Dimensions |Type Designation | UMC65-40 |Maximum head inCirculatorpump|meters x 10 Nominal diameter M =4-pole motor --of ports in mm P =2-pole motor C =3 speeds LeA =1 speed Weights NET SHIP.SHIP PUMP WT.WT.VOL TYPE PH (LBS.)(LBS.)(CU.FT.) UMC65-40 1 49.5 §3.5 19 UMCES5-80 3 66 70 19 UPC65-160 5 70.5 74.5 19 Electrical Data and Dimensions NOM.HP AT SUC. MTR.SPEED:DISCH.DIMENSIONS IN INCHES Pumptype [|1 ]2 [3 |PH VOLTAGE size |681 |B2 |a3 |Bs |or |02 [03 |o8 [|BS |Hy |H2)Hd) -Dr UMC65-40 ve|"wl iA 1 115 22 3%|S%e |%a |B%e |24 1 4'%e |SA |Te |3%6 |De |12'%12umces-80 |%*|%]%1 3 208,230 460"2%|a%|sve|He |o%e |2%[are]5%|7%|%|a%e |10%"|13%|12 UPC65-160 Ve 1 |/1%3 208,240 or 460°24 Wm 1[5'*vel He |OM%6 |2%|4'He]SA y AAT |%3%16 110%6 |13%12 NOTE:*460 voit models are singie speed only. YYperformance Curves (60 Hz -Single and Three Phase Models)-UMC 65-40 UMC 65-80 UPC 65-160 Single Phase Single Phase Single Phase 16 :°Tot inant T aanent CI &cr :I SINGLE PHASE +Y *SINGLE PHASE [4 aaaee eee SINGLE PHASE .Speed1 1150 RPM]2a ui uM Speed1 1000 RPM TT)56 Speed12000RPM[7]"J Speed2 1440 RPM 7D Speed2 1300 RPM 'a Speed2 2540 APM}.+Speed3 1650 RPM F4 Speed3 1570 APM Ht Speed3 3030 RPM|- ve Samant StottiHamtInaaescrt2;th a10}+'t a I pa seasaee2+v as c +bh +44 an r z2erecte18h; S 'me :9PaasescescessPicncsusssccsncsesteccssssee:2°Nea NC: ¥t =Wi .ae BN +=ae aes a er ee 6 a P ite eNnsese.toot TTT TSN H iN a ff gene 4 i ee ee bas areasarmenrereSearmiKTpanaiebNabeeed' 4 a a: :+Shetty +==tT °.NS wedee cep Ne pete sesnce :au ageeaCep soesnnat aseeed rit DS NE2ban.3 oe jesduauey|rons us oene +--- sass jauuousd bens daeeenbesceseeed ew sotto psfaman+naa cessanescecssnssensssnnasna:cope py 0 10 20 3%&50 60 70 8 90 100 110 120 130 140 0 20 0 6 60 100 120 140 160 0 0 46 &8 100 120 180 160)18 CAPACITY (US GPM)CAPACITY(US GPM)CAPACITY (US GPM) P-wH2 +>UMC 65-80 UPC 65-160 Three Phase PA Three PhaseMINIMUMINLETPRESSURE"2 jan naes Gene sasenes oaney pn Sere eres SREIEEEaTHREEPHASE|».[THREE PHASE ,FLUID TEMPERATURE *t Speed?790 APMIT]:[Speed1590APM]_if Speed RP.167"F 194°F 250°F Speed2 1420 REM wortsc tr]20063 3590 apm(75°C)(90°C)(121°C)nm m ot Blin:Guba Be -Tt 1.65 Ft 13.2 Ft 54.2 Ft en N 5M 4.0M 16.5M 20 _"eek .7PSI §.7PSl 23.5 PS!==CAEN Oo 16 Q Ry tosa::EEv2 e 8 2 +'wf. :+eens Ve 8 :16 pei ttN5PHNteecpabana<<rt'4 4 8-4 nei|Prt rrttissdecefotgdeccticcdeecyoq -| u +T TST Srp 0 20 0 6 8 10 120 14 160 o 2 640)60 80 100 118180 CAPACITY (US GPM)CAPACITY (US GPM) MINIMUM INLET PRESSURE*MINIMUM INLET PRESSURE' FLUID TEMPERATURE FLUID TEMPERATURE 167°F 194°F 250°F 167°F 194°F 250°F (75°C)(90°C)(121°C)(75°C)(90°C)(121°C) 1.65 Ft 13.2 Ft 54.2 Ft 18.1 Ft 29.5 Ft 70.5 Ft 5M 4.0M 16.5M 5.5M 9.0M 215M .7PS!5.7PSI 23.5PSI 8.0PSI 12.8PSI 30.6PS! *Minimum gauge pressure required at the inlet (suction)to insure effective,trouble-free operation.Varies by fluid temperature. ;Materials of Construction DESCRIPTION MATERIAL DESCRIPTION MATERIAL |Impelier,impeller sealring,bearing plate,AISI304SS Rotor end caps Copper or brassrotorcan,bearing retainers,rotor impeller,Upper and lower radial bearings Aluminum oxiderotorcladding,split cone,and split cone nut CeramicShattAIS1305SSThrustbearingMetai-impregnatedShaftbearingjournalsChromecarbide/Tungsten carbide carbon Pump housing"Cast iron O-rings and gaskets EPDM Stator housing Aluminum Terminal box Advanced composite *Bronze -optional GRUNDFOS x GRUNDFOS Pumps Corp.*2555 Clovis Ave.+Clovis,CA 93612SupportCenters:Allentown,PA +Atlanta,GA L-200-TL-0ne 6493 PRINTED 8,a |GRUNDFOS Wet-Rotor,In-Line Single Stage Circulator Pumps cr |e iSeries 200 MC/UPCLo 60 Hertz 65 JOB or CUSTOMER, ENGINEER: CONTRACTOR: SUBMITTED BY:DATE: APPROVED BY:DATE: ORDER NO.:DATE: SPECIFICATION REF.: QUANTITY TAG NO.MODEL NO.GPM FEET {|VOLT {|PHASE COMMENT Technical Data FLOW RANGE:15 -160 U.S.GPM HEAD RANGE:2 -55 FT. MAXIMUM WORKING PRESSURE:145 PS! MINIMUM TEMPERATURE:60°F (15°C) MAXIMUM TEMPERATURE (Open Systems):140°F (60°C) MAXIMUM TEMPERATURE (Closed Systems):See below FLANGES:2%”ANSI 125 Lb.R.F. Amb.Air Temp.104°F (40°C)122°F (50°C)140°F (60°C)150°F (65°C) Max.Water Temp.230°F (110°C)212°F (100°C)194°F (90°C)185°F (85°C) Mounting Positions 5 Sami00NOTMountMotorSnatt in Veriical Position Dimensions Type Designation UMC65-40 ||Maximum head inCirculatorpumpmetersx10 Nominal diameter M =4-pole motorJ of ports in mm P =2-pole motor C =3 speeds K---A =1 speed Weights NET SHIP.SHIP. PUMP WT.WT.VOL.TYPE PH (LBS.)(LBS.)|(CU FT) UMC65-40 1 49.5 53.5 19EOeUMC65-80 1 66 70 19 3 3 UPC65-160 3 70.5 74.5 19 Electrical Data and Dimensions NOM.HP AT SUC. MTR.SPEED:DISCH.DIMENSIONS IN INCHESpumptyee[1]2173 |PH VOLTAGE size |6t |B2 |63 |Bs |Or |D2 |03 |04 |o5 |Hy )He 1 43 Du UMC65-40 va)%}ts 1 118 24 3%1 Ste |He |Be |2H |4's tl 514%|7%e VY B60 |Pre |12'2 umces-80 |4%)%1%|3 208,230 or 460"2%|3%[5%]%e |%e |2%1 4'%el S%|7%e |%|3%|10%!13%|12 upces-160 |%|1 [1%]3 208,236 oF aor |2%|3%[Se]%e |o%e |2%[ar%e]5%|7%|%|a%e0 |10%]13%|12 NOTE:*460 volt models are single speed only. performance Curves (60 Hz -Single and Three Phase Models) 1C 4geUMC65-40SinglePhase ae TT lemestertech mel panausnanesi SINGLE PHASE 4TTSpeed11150APME|14 t Bf Speed2 1440 RPM | +pt t+Speed3 1650 RPM}+TT 12 r amt + re ee +++ ae KT10}+SC k '"Ts SS + o 8 S sap: 9 ]: bd a be ¥ 6 4 x ”T Ss Y Li N 4 "Tt .s 32.4 Tt @ 10 2 3%40 SO 60 70 80 9 100 110 120 130 140 CAPACITY (US GPM) MINIMUM INLET PRESSURE' FLUID TEMPERATURE 167°F 194°F 250°F (75°C)(90°C)(121°C) 1.65Ft 13.2 Ft 54.2 Ft 5M 4.0M 16.5M .7PSI 5.7 PSI 23.5 PSI Single Phase2onRee dns one tH att SINGLE PHASE |- 8 }r 7]Speed1 1000 APM]+-+-+--7-+-1-+4 Speed 2 1300 APM Ittttttpt]Speed 31570APM| 2 se ewan Sone Bane n 'pete tet ttt4atte+I pena a namna nese_”a CRS PAS :t reef :o- &mae ST =apts ttg6++wel ;i "?<eae +tot ttt - 12 .'St tt T a T }* i8 +7 an - ; 4 7 P iat mtC)2m 0 86 «680 (100 (1040180 CAPACITY(US GPM) Three Phase27nn 208GRESERD:{THREE PHASE |}28 Speed1 790 RPMI]Speed21420RPMSpeed31710RPM 24 ;- x t _>,i &t Q 16 ptt w 1 t : = axe np tfReoretreismaNSEsepeueIisctCee77LittTt'{ni TE 7 8 oe mi . i +t iHie11- t HH +t 0 2 4 866 80 1001280 140 60 CAPACITY (US GPM) MINIMUM INLET PRESSURE*HEAD(FI)HEAD(F1)UPC 65-160 Single Phase TIIPRU LSD IIT.UIIOSINGIE Pease 1-Saeey aps CRESS SNS SES rere vvy-w-1-T9 BiSpeed12000RPM--{Speed2 2540 RPM |.Speed3 3030 Res:f-- '53°77-Tt + °TT r4 Tt... +t++4 20 0 6 6B 100120 18)160180 CAPACITY (US GPM) UPC 65-160ThreePhaseT Ms re oe oes THREE PHASE Speed 1 1590 APMT]Speed2 2680 RPM!:2-1 Speed3 3370 RPM |. Tap tapos strepihidods: 2 840)60)8 100 120140160180 CAPACITY(US GPM) MINIMUM INLET PRESSURE' FLUID TEMPERATURE FLUID TEMPERATURE 167°F 194°F 250°F 167°F 194°F 250°F (75°C)(90°C)(121°C)(75°C)(90°C)(121°C) 1.65 Ft 13.2 Ft 54.2 Ft 18.1 Ft 29.5 Ft 70.5 Ft 5M 4.0M 16.5M 5.5M 9.0M 21.5M .7PSI §.7PSI 23.5PS!8.0PSI 12.8 PSI 30.6 PSI *Minimum gauge pressure required at the iniet (suction)to insure effective,trouble-free operation.Varies by fluid temperature. Materials of Construction DESCRIPTION MATERIAL DESCRIPTION MATERIAL Impeller,impeller sealring,bearing plate,AIS!304SS Rotor end caps Copper or brass rotor can,bearing retainers,rotor impeller,Upper and lower radial bearings Aluminum oxiderotorcladding,split cone,and split cone nut Ceramic Shaft AIS!1305 SS Thrust bearing Metal-impregnatedShaftbearingjournaisChromecarbide/Tungsten carbide carbon Pump housing'Castiron O-rings and gaskets EPOM Stator housing Aluminum Terminal box Advanced composite "Bronze -optional GRUNDFOS 7 Z54 GRUNDFOS Pumps Corp.«2555 Clovis Ave.»Clovis,CA 93612SupportCenters:Allentown,PA +Atlanta,GA L-200-TL-065 |3393 PRINTED IN USA MODEL B THERMOSTATIC VALVES WITH FLANGED CONNECTIONSCORPORATIONTHERMOSTATS|CONTROLSSWITCHES©VALVES SAFETY CONTROLS FEATURES e FLOW RATES OF 68-1200 USGPM (water) e TAMPER-PROOF TEMPERATURE SETTINGS OF 55° 240°F e SEE "SELECTION”FOR COMBINATIONS AVAILABLE:ie CAST IRON,DUCTILE IRON,MODEL BF MODEL BO BRONZE &STEEL HOUSINGS AMOT Model B Thermostatic Valves are fully automatic1-1/2"THROUGH &6!PIPE SIZES 3-way fluld temperature controllers for diverting orFLANGEDCONNECTIONSmixingapplications,They are used to provide reliable control of fluid temperatures In engine water jacketeCOMPLETELYSELF-CONTAINED and tubricating olf cooling systems,These valves aresuitableforprocesscontrolandIndustrialePOSITIVE3-WAY VALVE ACTION applications where fluids must be mixed or diverted depending on their temperatures,They may also be :appiled to cogeneration systems to control temperaturesHOWTOORDERIntheheatrecoveryloopassuringproperangine cooting and maximizing heat recovery, When ordering please specify the following:Model B Valves are available with 'langed comnectlionsinhousingsofcastIron,ductile tron,bronze and 1,AMOT Model B,steel In 1-1/2"through 6 "pipe sizes sultable tor water flow rates of 68 to 1200 USGPM,See "Selection" 2.Pipe size connection:1-1/2",2",for available combinations of materials,sizes and 2-1/2",3",4",5"or 6",connections and Fig.|!for recommended flow rates In other ftulds. 3,Housing Matertal;cast Iron, Ouctile fron,bronze or steel,As with other AMOT Thermostatic Valves,they utliizefullyenclosed,factory-set temperature alement4,Type of flange connection,see assemblles which provide tamper-proof operation,To Table D,change a valve setting it Is necessary to exchange thetemperatureelementassembiles, 5.Nominal temperature setting, see Table E,Viton seats can be suppliled for use In fluids which attack Buna N such as phosphate ester and dlester 6,Any of the following special olls.With such olls,nickel plated element assemb!les features If required:should be requested for protection of the bronze parts, a.Viton seals (instead of If these ol!s are used,contact the AMOT factory tor Buna N),seal materlal recommendations for your specific trade b.Nickel ptated temperature name and type of oll. element assembly. c.Temperature Element Assembly AMOT Thermostatic Vatves display excellent rellabliltyLeakHole,see Table G,even under extreme shocks or vibration and many models d,Reduced Stroke Element Assembly have been qualified to MIL=-S-901 and MIL=-V=-19772, for nigh overtemperature,Other AMOT Thermostatic Valves are avaliable tor water This unit may be ordered using the full flow rates of 92800 USGPM,see Form No.913, Gescription as shown above or by constructing a Model No.using the MANUAL OVERRIDE Model Code System.The complete Model No.for a standard cast Iron bodied '¢desired,AMOT Model B Thermostatic Valves can be valve with 4"125 tb,Class flat face supptied with a Manual Override which allows the flanges,no manual override,plating or operator to force the valve to flow all the fluid leak holes and set to maintain a through the cooler,On the larger sizes there is onefNominattemperatureof160°F would be Manual Override for each of the temperature element4B0CF16001,assembi ies, (Amst controls PROVIDE MAXIMUM RELIABILITY FOR ALL APPLICATIONS pERATION»valve Is supptied with the temperature e!ementmandilesfactory-set to the nominal temperaturevrtingeTemperatureIssensedatPortAwhich#9 10S open to Port 8B (bypass)until the flulderaturereaches&point 5=10F*below the nominaltingeAsthetemperaturecontinuestorise,thesidingvalvemovestocloseoffPortBandopenPort(connected to the cooler or heat exchanger),Port B15tullyclosed8-10F*®above the nominal setting,Thelvecontinuallymodulatesthefluldflowtomaintainthenominaltemperature,For optimum control,thestemshouldbesizedsoabout1/2 the total fluidtlow$s passing through the cooler at full !oad. for long life,AMOT Model B Valves should not beexposedtocontinuoustemperaturesexceeding25F°spove thelr nominal temperature setting,For gecaslonal short perlods such as 1/2 hour,they can beexposedtotemperaturesof50F®above thelr nominal¢emperature setting,but 250°F maximum,For higherovertemperatures,spec lal reduced stroke elementassembliesareavaliable.They will withstand continuous temperatures of 60F*above thelr nominal!temperature setting but add 30%to the valve pressure drope INSTALLATION AMOT Thermostatic Valves operate In any position and may be located at the convenience of the systemdesigner.In the smaller sizes,the valve may be supported by the connecting pipe but should not be subjected to excessive bending,Line up the piping pefore tightening the connecting bolts.Larger sizes should not be used to support long and heavyt lengthe of plpe nor used to draw up lengths of pipe which have been fabricated too short. If the valve Is mounted at the high point of thesystem,the system should be properly vented to prevent trapping air at the temperature element assemblies. For piping dlagrams regarding specific applications, refer to Form 913,AMOT Thermostatic Vaives General Information, SELECTION AMOT Thermostatic Valves are selected by the anticipated flow rate through the vaive,Refer to Fig.1.Pressure drop across the valve is usualiylimitedtoapproximately2ps!to 7 psi to maintaln good temperature regulation. Standard versions avaliable from USA factory, Cast Iron Ductile tron Bronze Steel 2BMCF 2BMDF 1-1/23M8F 2CSJ 28CCF 2BCDF 2BMBF 2-1/280S J 2BFCF 2BF OF zcer 2-1/23MS J 2-1/2B0CF 2-1/2B00F 2FeF 5380SJ2-1/2BMCF 2-1/2BMDF 2-1/2308F 3MSJ 3B0CF 3800F 2-1/23M8F3BMCF38MDF3808 4BOCF 4800F 3BMBF 48MCF 48MDF 4808F 5B0CF 5B00F 48MeF SOMCF 5BMOF S80BF 680CF 6800F 5BMBF 6BMCF °6BMOF 6B08F 68MBF Models with cast tron,ductile tron or bronzehousingshaveANS!125 Ib,Class compatible flat faceflanges,Modets with stee!housings have ANSI 150 tb.Class compatible ratsed face flanges. SPECIFICATIONS Internal Trim Materlals ..«stainless stee!&bronze Standard Seal Materla!oe ©©©©©ew ow ow ew fe BUNA N Maximum Allowable Pressure Drop Across Valve oe e 20 psi (140 kPa) Valve Pressure Rating Cast Iron,Ductile IronorBronzebody..««150 psi (1034 kPa)Steel Body «.6 ««e«««230 psi (1585 kPa) Net Welght(Ibs.)Cast Ductite Iron tron Bronze Steel 1 1/2 BM wwe -22 - 2 8C,EM...«30 30 35 45 2 BF «6 0 oo 39 35 40 _ 2 1/2 Be «6 6 99 55 75 75 3B.«6 ©««60 60 80 80 4B...ee @ (135 135 150 _ 5B.«««&200 200 240 _- 6B.ee e e 270 270 300 _ AMOT designs and tests al! high quality standards are met, Its products to ensure that For good product \lfe,carefully follow AMOT's Installation and maintenance instructions;fallure to do so could resu!t In damage to the equipment being protected or controlled, PIPING DIAGRAMS MODELS BO.BC,.BM FOR MIXING APPLICATIONS FOR DIVERTING APPLICATIONS HEAT lCOLD=>B4-HOT EXCHANGER l BY PASS .A HEAT SOURCE coLD HEAT EXCHANGER LL adiielbi dh fa aE yy 4cena+TED |Hr Jet'|44 oppor,ceed.4--]ain:,SAC 60 AT 100°!tq pp aaa -{$46 40 at worn "44l-+-Lusmicating on -|-|oT ry.a”L PRESSUREDROP-POUNDSPERSQUAREINCHaby te Sat 30 at 40"F.|2"pe R+RA Porpot4+°tS 1 - 27 t-a i 1 I |rTi*)= 11/28 440 55 70 85 100 11528440608010012014021/28 «(75 110 145 180 215 250388012016020024028048160240320400480$606836054072090010801260 Fig.3.FLOWINUS.GALLONS PER MINUTERecommendedpressuredropis2to7psi MODELCODESYSTEM ye 4 BOC F 180 0]d-AT RYLER BERSnae 3 BO C F 160 O1--(»)-T-| T-_Special Requirements (MTO)Made to Order,Element Asembiy Leak Hole,TABLE G**Element Assembly Type,TASLE FTemperatureSetting,TABLE E Y TABLE A TABLE B TABLE C TABLE D*Valve Size|Valve Type Body Materlal Connect tons Code Code CodeInches(mm)]No,No,Matertal No,Type 1 1/2 (40){BO standard C cast Iron F ANS!816.1 (125 Ib,Class)"FF Flange”(standard)|J ANS!B16,5 (150 Ib,Class)"RF Flange"2 (50)|BM manual override S steel 2 1/2 (65)G Undri tied FlangeBCteeconfig.|B bronze N Navy Flange per MIL-F=200423(80)without manual D ductile tron 4 (100)override, t-1/2 &2" 5 (125) BF flanged,2"6 (150)onty sendseeTABLE E TABLE F TABLE G#*Temperature Setting Element Assembly Type Element AssemblyLeakHote Code Nominal Temp.Code Code StzeNo.°F (°C)No,Type No,Inches (mm) 055 55 (13)01 1096xX standard none (standard)075 75 (24) 090 90 (32)02 1096P plated with A 1/2"(12,7)095 95 (35)Viton seals B 1/4"(6,4)105 105 (41)c 3/8"(9,5)110 10 (43)D 178")(3,2)120 120 (49)03 1096X%with Viton seats |E 1/16"(1,6)130 130 (54)F 3/32"(2,4)140 140 (60)07 2433X manual override G 3/16"(4,8)150 150 (66)H 5/16"(7,9)155 155 (69)11 5566X reduced stroke160160(71)element for high165165(74)overtemperature,170 170 (77)not avaltable In175175(79)all temperatures180180(83) 195 195 (91) 205 205 (96) 215 215 (102) 230 230 (110) 240 240 (116)NOTE:Letters or numbers in the MTO space,other thanTemperaturesapplyonlyto|othing,Al or AA,Indicate the unit Is bullt to1096&2433 Element spectal requirements and some of the other codeAssembIles,numbers may not be valid,Check with the factory forfullspecifleationofsuchmodels, *Former model coding generally omitted Table 0.**Table G Is to be omitted on any valve made In USA nat ranutetan task watae ueENSIONS MODELS BO,BC,BM MANUAL OVERRIDE LEVER=(BM ONLY) ONE PER ELEMENT MANUAL COLD POSITION AUTO POSITION 5-7/8 (149.2)BOLT CIRCLE (--excnanoen Y NOTE | DIA \p 4 FXNOMINAL *PIPE SIZE NOTE 2 MODEL 2BF BOLT a-3/4 T(120.7 yeY traps ZwaNOTE i._eS NOMINALPIPESIZE|wore 2 NOTE !:DIMENSION INCLUDES 1716 (1.6)RAISEO FACECS) ON CODE LETTER 'J'FLANGE NOTE 2:BOLT HOLES STRADDLE CENTERLINES OF ALL AXES Principal Olmensions Maximum Flange OritilngNominalWidth Number ofPipeIntheNo,of!Dia,of |Bolt ElementMode!No,Size myn tw mx nyn "Z"Other Plane|Holes|Hotes |Circle |Assembi ies \-1/ZBMBF 1-1/2 -7293/4 9/16 |5-1/6 |5-7/8 5-1/2 4 3/4 3-7/8 1(40)C197)[(14,29))128.6 |(149,2)](139.2)(19,05)98.4 2 BC(=)F 2 -8-7/8 |11/16 6 5-7/8 6 4 3/4 4-3/4 12BM(-)F (50)(225)1 (17,.46)](152.49)(149.2)(152.4)(19,05)|(120.7) 2 BF (=F 2 -4-7/16)5/8 6 10-5/8 6 4 3/4 4-3/4 1(50)(112.7)1(15,87)}(152.4)?(270)[|(152.4)19,05)|(120,7) 2 BCSJ 2 3-5/8 |8-7/8 5/8 6 5-7/8 6 4 3/4 4-3/4 1(50)(225)|€15.87)](152.4)](149.2)|(152.4)(19,05){(120.7) 2-1/BO(H)F |2-1/2 -10 11716 7 6-1/2 8-1/4 4 3/4 5-1/2 22-1/2BM (=)F (65)(254)1(17,46)](177.8)|(165.1)|(209.6)(19,05)|(139.7) 2-1/2 BOSJ 2-1/2 |4-1/8 10 11716 7 6-1/2 8-1/4 4 3/4 5-1/2 22-1/2 BMSJ (65)(254)1(17,46)|(177.8)1(165.1)|(209.6)(19,05)|(139.7) 3 BO(-)F 3 -10-1/2;3/4 7-1/2 |6-3/4 8-1/4 4 3/4 6 2 '|3 BM(=)F (80)(267)1(19,05)1 (190.5)/(171.5)|(209.6)(19,05)|(152,4) }3 B0SJ 3 5 10-1/2|374 |7-1/2 |6-3/4 |8-1/4 4 3/4 6 2|3 BMSJ (80)(267)}(19.05)](190.5)(171.5)(209.6)(19,05)|(152.4) 4 BO(-)F 4 -15-7/8 |15/16 9 8-9/16}12-1/8 8 3/4 7-1/2 4 i|4 8M(=)F (100)(403)|(23.8)|(228.6)|(217.5)}(308)(19,05)|(190.5) 5 BO(-)F 5 -19-1/4 |15/16 10 9-1/2 13-3/4 8 7/8 8-1/2 65BM(-)F (125)(489){(23.8)(254)|(241,3)(349)(22,23)(215,9) |6 BO(-)F 6 -19-1/4]1 1 10 19 8 8 9-1/2 9 i)6 BM(=)F (150)(489){(25.4)[(279,4)](254)|(482.6)(22.23)|(241.3) binens tons In Inches.Millimeters In (), RICHMOND,CALIFORNIA 94802 U.S.A.FORM 936AMOTCONTROLSCORPORATIONTELEX:33-5442 REV.- 5-83 9.censional Data System TappingsNPTtins.) AX-120 68.0 34.0 24 40%1 266 29%20 18 275 ;"AX-144 77.0 34.0 24 45%1 233 34%20 18 1 251 : .AX-180 90.0 34.0 24 52%1 286 41%20 18 304 AX-200 110.0 34.0 24 63 1 326 52%20 18 i 344 lAX-240 131.7 44.4 24 74%1 397 63%20 18 1 415 charging vaive -J (between bolt holes) a --4 {between bolt holes)-Goo Series AX-V a .....A'Di B'D 2 5 aw AeModelNo.0 : AX-60V .33.6 W1 16 43 %145 }' AX-80V -|444 22.2 16 56 Ya 201 AX-100V 55.7 22.2 16 69 %237 AX-120V 68.0 34.0 24 44%1 285,: -p_Ax-144v |77.0 34.0 24 49%1 299 4&--B AX-180V 90.0 34.0 24 56%1 305 AX-200V |110.0 34.0 24 67 1 335 AX-240V |131.7 44.4 24 76%1 401 'location depends upon size of tank.Refer to Submittal Sheet 037.905.:- System connection lifting ing =charging valve 1°."NPT1%”NPT 'N f ° s 'tdSeriesL . tee .'D temcenel [inches=|-Inches =|2 200-L4 53 24 38%204 2 3004 79 24 52%250 400-4 -105 24 66%295 »2500-L -132 24 80%340 i htting ring 600-L =158 30 65 550 ' -800-4 f=.211 30 83 680 *1000-L =264 36 73%760 1200-L =317 36 85%864 1400-4 370 36 98 %968 1600-L 422 48 71%1580 "tel ='2000-L 528 48 [B85 %1810 |ie oA ° "x -" f 7 ™mM te NetPacibsSUGwu.---PUMPS.a Armstrong Pumps Inc.,93 East Avenue,North Tonawanda,N.Y.14120 ©Phone:(716)693-8813 ©Fax:(716)693-8970InCanada:S.A.Armstrong Limited,Toronto *In U.K.:Armstrong Pumps Limited,Colchester,England Model SD creenheck Model SD direct drivesidewallpropellerfansaredesigned foreconomyandreliabilityinlightduty,clean air applications.Efficientropeller,venturi and motor supportdesignsresultinlowsoundlevelsandminimalrestrictiontoairflow. Model SD sidewall fans are offered inpothexhaust(Mode!SDE)and supply(Model SDS)versions with equalerformance.Performance capabilities range from 200 cfm to 4500 cfm with upto%inch of static pressure.The sevenfansizesavailablerangefrom8"inpropellerdiameterto20”.Each fan sizeigthoroughlytestedinGreenheck's modern research and development facility to insure complete and accurate performance ratings.Model SD sidewallpropellerfansarelicensedtobeartheAMCAcertifiedratingssealforair performance. Acomplete line of accessories is available to reduce installation time and cost while adding to safety and installation flexibility. Model SDS -Supply The Mode!SDS supply fan is designed with an inlet venturi and propeller which allow the motor side of the fan to be mounted toward the interior of the building.Model SDS performance is equal to the exhaust version. Greenheck certifies that the Modeis SDE andSOSsh'herein areIi d to bear theAMCAseal,The ratings shown are based ontestsandprocedurespertdindi with AMCA Publication 211 and comply with therequirementsoftheAMCACertifiedRatingsProgram.a : The AMCA Certified Ratings Seal applies to aircapacitiesonly.PerformanceshownlsforSOEandSOSfanswithoulducts, Construction Featur ee Sg re eeellaoes 5 The motor support serves as a protective guard over the fan blades.It is constructed of rigid,heavy gauge wire and is Motors are permanently lubricated and carefully matched to the fan load. Neoprene isolators are mounted between the motor and the motor support to minimize vibration. Model SDE Inlet Side View The Fan panel is of steel construction with formed flanges and a deep spun inlet venturi.Mounting holes are prepunched for ease of installation. Panels are coated with Greenheck's Perma-Tector™thermally fused polyester coating to provide along lasting finish. Propellers are constructed of die formed aluminum blades riveted to a steel hub.Hubs are attached securely to motor shafts with set screws.Propellers are statically and dynamically balanced. Dea hee Maca EE AE Me se hIlac mfioeMODEL |A}etc [oj e |r joo.MDE |weicHT SOE-8 [13%|12 1 7 1 8%10x10 12 SDE-10 (15%113%]1%7 1 10%]12x12 16 SDE-12 [18%1G 1%|tO%]7 [FM ETAM!14x14 20 SDE-14 [20%/}18%[1%J11%)1 112%114%]16x16 27 SDE-16 |22%[20%]1%[11%|1 [12%116%!16x18 30 SOE-18 |24%122%2%|14 1 15 [18%]20x20 35 SODE-20 [26%|24%|2%114%]1 [15%120% Pert urmance smown is for Model SDE and SDS without aucts re Pe J Airflow "Varies w/motor selection. a NOTE:Fan Panels for SD sizes 8-14 are 18 gauge steel.Sizes 16-20 are 16 gauge STATIC PRESSURE IN INCHES WG. Nibetrterrs HP RPM TS 0.000 0.100 0.125 0.250 0.375 0.500 CFM |BHP |CFM |BHP |CFM!BHP |CFM |BHP |CFM |BHP |CFM |BHP SDE-8-24-E 1/80 1050 2199 206 |002;48 {004]27 |.004 SDE-8-24-D 1/80 1550 3246 305 |.007 |204 |.009 |177 |.010 SDE-8-32-E 1/80 1050 2199 265 |.004]66 |006!51 |.006 SDE-8-32-D 1/80 1550 3246 392 |.011 |267 |013 |229 |.014 SDE-10-24-E 1/25 1050 2748 402 |.005 |172 |009 |145 |.010-pe SDE-10-24-D 1/25 1550 4056 594 |017 |466 |022 4429 7.025 SDE-10-32-E 1/25 1050 2748 519 |.010 |260 |.014 |210 |.015 SDE-10-32-D 1/25 1550 4056 765 |.030 |632 |.036 |588 |038 {|332 |.047 SDE-12-24-E 1/20 1050 3299 707 |.011 |494 |.016 |419 |.018 |195 |.027 SOE-12-24-B 1/6 1140 3581 768 |.014 |572 |.020 |521 |.021 |269 |.032 SDE-12-24-D 1/20 1550 4869 |1044|.035 |901 |.044 |865 |.046 |678 |.054 SDE-12-24-A 1/4 1725 5419 1162 |.048 |1034}.059 |1001 |.061 |838 |.071 |599 {.086 SDE-12-32-C 1/8 860 2702 726 |.011 |363 {|.017 |288 |.020 SDE-12-32-B 1/6 1140 3581 962 |.026 |753 |.033 |683 |.035 |347 |.048 SDE-12-32-A 1/4 1725 5419 1456 |.092 |1316 |.100 |1281;.100 |1101].120 |813 |.130 SDE-14-24-C 1/8 860 3150 925 |.013 |528 |.021 |419 |.024 SDE-14-24-B 1/6 1140 4176 1227 }.029 |998 |.042 |942 |.046 |519 |.060 |388 |.073 SDE-14-24-A 1/4 1725 6319 1856 }.100 |1702 |.120 |1663 |.120 |1479 .150 |1263].160 SDE-14-32-C 1/8 860 3150 |1143].025 |801 |.033 |572 |.035 |337 |.050 SDE-14-32-B 1/6 1140 4176 |1515].057 |1288}.070 |1226}.073 |709 |.088 |570 |.10 SODE-14-32-A 1/4 1725 6319 2292 {.200 |2148;.210 |2112 |.220 |1915 |.240 |1672 |.260 SDE-16-24-C 1/8 860 3601 1335 |.024 |1015].037 |844 |.035 |534 |.056 SDE-16-24-B 1/6 1140 4774 |1770|.060 |1536}.070 |1479].080 }962 |.078 |773 |.120 SDE-16-24-A 1/4 1725 7224 |2679;.190 |2523].220 |2485 |.230 |2298 |.260 |2104 |.290 |1703 |.280 SDE-16-32-C 1/8 860 3601 1663 j .041 |1311].056 |1111 |.058 |699 |.077 SDE-16-32-B 1/6 1140 4774 2205 |.100 |1944 |.120 |1876 |.120 |1281].140 |976 |.170 SDE-16-32-A 1/3 1725 7224 3336 |.330 |3164 |.360 |3121}.370 |2903 |.410 |2679 |.440 |2240 |470 SOE-18-24-C 1/8 860 4053 2012}.054 {|1680}.074 |1590}.079 |942 |.100 |676 |.120 SDE-18-24-B 1/6 1140 §372 2667 |.120 |2430{.150 |2365 |.160 |1969 |.190 |1375 |.220 |1197 |.250 SDE-18-32-C 1/8 860 4053 2539 |.096 |2151 |.110 |2045 |.120 |1262}.140 SDE-20-24-C 1/8 860 4504 |2679!.086 |2348].100 |2266 |.110 |1777 |.140 |1242 |.170 SDE-20-24-B 1/4 1140 §970 |3551].200 |3302}.230 |3240!.240 |2927 |.270 |2565 |.320 |2092]36 SDE-20-32-C 1/4 860 4504 |3412].150 |3002].170 |2891 |.180 |2269 |.220 |1617 |.260 SDE-20-32-B 1/2 1140 5970 |4523]340 |4218}.380 |4141 |.390 |3730!.440 |3267 |.490 |2733 |530 ein iFae Special Finishes Wall Mount Housing .;bat NY 225 RES AP OT SARS TPOSeaNRePREOREEtLTSAOaeaPealopet,=.2g oe tan LogaeeM:, -<tinadnaliemeptinpe ese a 2 citeoe jete line of accessories is available for safety,Special coatings are available for protective oracom?installation and weather protection.Consult decorative purposes.Protection from corrosiveease©enheck catalog Accessories for Sidewall atmospheres requires individual consideration.ine onler Fans for details.Consult your representative or the factory for morepropeinformation. --Speed Control x8 Speed controls are °available for use with some,|shaded pole and open permanent split4))Capacitor motors (115 volt single phasea©only).Two sizes are LL Oneetecy F available. Model 5W -For Opposite Motor Side applications up to 5.0OSHAMotorSideGuardGuard.amps (requires 2x4 handy box by OSHA Opposite Motor others) Side Guard Model 10W -For applications up to 10.0 amps (requires 4x4 handy boxTypicalspecificationsbyothers) S<ewall fans shall be direct driven axial type.Perma-Tector™to provide a lasting finish.MotorspellerconstructionshallbeofdieformedSupportsshallbeheavygaugeweldedwire,zinca.minum blades riveted to a steel hub.Hubs shall plated.Four neoprene vibration isolators shall be2securelyattachedtomotorshaftswithsetscrews.installed between the motor support and the \ktors shall be permanently lubricated,heavy-duty motor mounts.':2e carefully matched to the fan load and furnished The axial exhaust or supply fans shall bear the«2e specified voltage,phase and enclosure.AMCA certified ratings seal for air performance."*@ fan panel shall be steel construction with Fans shall be Model SDE for exhaust and SDS *unched mounting holes,formed flanges and for supply as manufactured by Greenheck of1>e89 spun venturi.Panels shall be coated with Schofield,Wisconsin. Warranty tenheck warrants this e uipment free from def in ri i i"#purchase date,quip @ from defects in material and workmanship for a period of one year from by un;ema Parts which prove to be defective during the warranty period will be replaced at our option when4motOurfactory,transportation prepaid.rng thig peroganted by the motor manufacturer for a period of one year.Should the motor prove defective*.0d,it should be returned to the nearest authorized motor service station.wi F ..ill not be responsible for any installation or removal costs. GREENHECK P.0.BOX 410 SCHOFIELD,WISCONSIN 54476-0410PH.715-359-6171 Mata pene Hydronic Controls Single Function Aquastat®Controls L4006,L6006,L4008 and L6008 controts provide high limit,low limit,circulator control,or combination low limit and circulator control in hydronic heating systems.See table below for available models and their applications. & 7TemperatureRangeSeeSes Model Number |Sensing Element Application Switch Action F c Page ee --P L4006A Immersion type High or low limit.|Spst,contacts break }=#100 to 240*-38 to 116 61-63 xs on temp.rise.40 to 180 8 to 83 +t) L4006B Immersion type Circulator control.|Spst,contacts make 100 to 240 38 to 116 cy on temp.rise.aE, L4006E Immersion type High limit;Spst,contacts break 130 to 270 54 to 132 oa manual reset.on temp.rise.fr L4006H Strap-on mounting High limit;Spst,contacts break 100 to 240 38 to 116 aS manual!reset.on temp.rise. L6006A,B Immersion type Circulator control Spat 100 to 240 38 to 116 and high limit or low limit. L6006C Strap-on mounting |Circulator control,Spat 65 to 200 18 to 93 high limit and low limit. L4008A Remote bulb High or low limit.|Spst,contacts break 100 to 240 38 to 116 63 on temp.rise.130 to 270 54 to 132 L4008B Remote bulb Circulator control.|Spst,contacts make 100 to 240 38 to 116 on temp.rise. L4008E Remote bulb High limit;Spst,contacts break 130 to 270 §4 to 132 manual reset.on temp.rise. L6008A Remote bulb Circulator control Spat.-30 to +70 -34 to +21 ;and low limit.100 to 240 38 to 116 L4006A,B,E,H;L6006A-C Aquastat®Controllers BULB:¥e x 27s in.[10 x 73 mm],copper. APPROXIMATE CASE DIMENSIONS:5%in.[143 mm}high,2 in. [51 mr]wide,2'in.[54 mm]deep (2%in.[70 mm]deep L6006C Immersion type controliers for limiting or regulating temper- atures of liquids in boilers or tanks. @ Totally enclosed Micro Switch™ snap-acting switches operate on temperature rise to set point. @ Visible contro!point scale and external adjustment screw per- mit easy setting. @ Horizontal or vertical insertion of the sensing element. ®Direct or well immersion of the sensing element. @ Models available for strap-on mounting. e@ Remote bulb model may be used to sense air temperature in ducts and in outside air sensing applications. @ TRADELINE models include well adapter and tube of heat-con- ductive compound. L4006; L6006A APPROVAL BODIES: Listed by Underwriters Laboratories Inc.(except L4006H):File no. MP466,Vol.6,Sec.1,Guide no.MBPR2. Certified by Canadian Standards Association:File no.LR95329-1. Certified by American Gas Association-L4006A. only).OPERATING TEMPERATURE RANGE:50 F to 125 F (10 C to 52 C]. ELECTRICAL RATINGS (A): Models with 2 F [1 C]Fixed Differential- 120 Vac 240 Vac Full Load 2.6 1.3 Locked Rotor 15.6 7.8 Models with 5 F [3 C]Fixed Differential or §F to 30 F (3 C to 17 C] Adjustable Differential- 120 Vac 240 Vac Full Load 8.0 5.1 Locked Rotor 48.0 30.6 Millvoltage 0.25 at Ya to 12 Vde continued next page 61 TRANFI INE Hydronic Controls ,4006A,B,E,H;L6006A-C continued REPLACEMENT PARTS AND ACCESSORIES: See parts and accessories,at the end of this section,for replace-ment well assemblies and compression fittings. SUPER TRADELINE L6006A includes heat-conductive com- pound and well adapter. SET POINT INDICATING WHEEL OIFFERENTIAL ADJUSTMENT WHEEL ADAPTER CLAMP SCREW (2)-_=COND ve COMPOUNDVANWITHVERTICALMOUNTINGOFIMMERSIONWELL,ELEMENT 1S ATTACHED TO BOTTOM OF THE CASE. 11,6814 *TRADELINE models.@ SUPER TRADELINE model, SUPER TRADELINE L6006A showing mounting bracket place-ment for vertical or horizontal mounting. VERTICAL MOUNTING HORIZONTAL MOUNTING 7880A %get,|ee LER mel re Midscale:ty 5::i>softed Tae Recall Rie akties =AS witat stelemperature.i ebitterentialeey L4006A1009 |High or low timit.|Contacts 100 to 240!38 to 116 |5,fixed |3,fixed |1%in.[38 mm]insulation.L4006A1017 break on 5 to 30,|3 to 17,temp.rise.adj.adj.L4006A1041 5,fixed |3,fixedL4006A1132 3 in.[76 mm]insulation,stop factory-set at 160 F [71 C].»'L4006A1678 5 to 30,{3 to 17,|3 in.(76 mm]insulation,stop factory-adj.adj.set at 240 F [116 C};well adapter andheat-conductive compound.*L4006A1959 40to 180 |4to82 |2,fixed 1,fixed |1%in.[38 mm}insulation;well adapterandheat-conductive compound.*L4006A19674 100 to 240}38 to 116 |5 to 30,/3 to 17,|1%in.[38 mm)insulation,stop factory-adj.adj.set at 240 F (116 C).L4006A2007 3 in.[76 mm}insulation.L4006B1007 |Circulator.Contacts 5,fixed |3,fixed |1%in.(38 mm}insulation.*L4006B1155 make on 5 to 30,|3 to 17,|3 in.[76 mm)insulation,stop tactory-temp.rise.adj.adj.|set at 240 F [116 C};well adapter andheat-conductive compound.-_____] L4006B1163 3 in.[76 mm]insulation.*L4006E 1067 High limit.Contacts 130 to 270|54 to 132 |Manual reset 3 in.[76 mm]insulation,stop factory-break on set at 250 F [121 C];well adapter andtemp.rise.heat-conductive compound.-______] L4006E1091 3 in.[76 mm]insulation. continued next page 62 TRADELINE arenedtaan.|rrr aa Remote Temperature Controllers T6054A Utility Line Voltage ThermostatAPPROXIMATE DIMENSIONS:7%in.[184 mm]high,2 in.[51 mm]wide,2%in.[67 mm]deep. provides spdt heavy-duty,line-voltage temper- ature control in ventilation,heating or coolingsystems.ELEMENT:Hydraulic. e Use in a variety of farm,industrial or commercial ELECTRICAL RATINGS (A):applications. ¢Wall or duct mount in any position.|120 Vac |240 VaceFastresponse,tin-piated element not affected by T6054A1005aecoeFullLoad 7.4 3.7@Rugg. ¢Mounts on flat surface with three screws.Locked Rotor 44.4 22.2 Resistive 10.0 5.0APPROVALBODIES:054A 1054ListedbyUnderwritersLaboratoriesInc.-File E4436,Guide T6054A 105XAPX.Full Load 16.0 8.0CertifiedbyCanadianStandardsAssociation-File LR95329-1,Locked Rotor 96.0 48.0 Resistive 10.0 10.0 *TRADELINE model. fe cet To <div a bus Dimensions':o-7-«Order ..>----+}.Systemgt Height {= Width©-]'DepthNumber.|=?Switching 355 SR CEN PRPS ec:Jicontroned Sint Fn"|mm:ins [mm>*T6054A1005 |Spdt.Can be 30 to +100 34 to +38 |3.5,fixed!1.9,fixed|Heating |7%|194]2%|67!2 |59usedinheating-coolingcoolingsystems -_--_-_--_]with external T6054A10548 |changeover|+35to +110 |+2to +43 |3.5,fixed 1.9,fixed |Heating.|7%|194]25 |67]2 |51Switch.;cooling 4 Brushed zinc cover. T6054B;T6064A,B Return Air Controllers a oa ELECTRICAL RATINGS PER SWITCH (A): T6054B,T6064A T6064B-{24 |120 |240 |120 |240 |277Vac{|Vac |Vac |Vac |Vac |Vac Used with a standard rdem thermostat to limit room temperature contro!paint on heat- ing and cooling. *T6054B and T6064A provide fast responsewithhydraulictemperaturesensingelements : mounted on the unit.Pilot Day SA re We*Sensor elements consist of two capillaries;Full Load -|-|] - -7]16 8 |67LockedRotor_--__-80 40 |33.5-{-|-J]18 |1 1 48 one for heating,one for cooling.¢T6064B sensor design permits mounting ofsensorsinreturnairpathinpackagedairconditioningunits.®Mountsin any position. ®Narrow switch differential. *Set points are concealed under cover. ed Contra |Star PgStamp.Range”Differential |-"aeiouInc.-File E4436,Guide RF Rd bts Sane pera oy on 07]Teation .Association-File LR95329-1.*7605481003 1-spdt |60 to 80116 to8z|08 |0.4 Heating- *T6064A1003|2-spat Ps coolingm]high,4 in.[102 mm]wide,2%in.606451001 2-spat [55 to 85/13to 29]3.0 81 mm]high,2 in.[51 mm]wide,2%in.(54 mm]a switches make R-W on temperature rise:make R-B on temper-ature APPROVAL BODIES: Listed by Underwriters Laboratories XAPX. Certified by Canadian StandardAPPROXIMATEDIMENSIONS? T6064A,B-5%in.[14[54 mm]deep.T6054B-7%eideep.T6064A-Sensing element adds 1%in.[38 mm}to height. 364 cane, TRADELINE Lele oe LEERRGeemerge.7ORge DESIGNED TO MEET THE N The No.600C TRERICE Pressure Gauge offers quality,phor bronze bourdon tube and brass socket.The brass movement is mounted on the socket and the entire me ee ee an NO.600C SERIES 3V2”&4%2”SIZES EEDS OF THE CONSTRUCTION INDUSTRY. accuracy and styling at a budget price.This gauge is furnished with a phos-movement assures long life.The tube and tip are soldered to the socket,thechanismIsindependentofthecase.Due to this construction,maximum sta-bility is obtained.The white finished aluminum dial face with black modern appearance.It is furnished bottom outlet only ina 34%"size.The 32”size is available with an optional back flange.YA”ora"graduations and figures which are easy to read gives the gauge adialsize.This gauge Is available only ina flangeless case in the STANDARD SPECIFICATIONS CASE:Cast aluminum -black finished. RING:Friction type -stainless steel (414°),black finish (3%°). WINDOW:Clear glass. DIAL:White with black figures and graduations. POINTER:Adjustable -black finished. MOVEMENT:Brass. ACCURACY:ANSI B40.1 Grade A.1%of full scale over middle half of range.2%offullscaleover1st&last quarter of range. BOURDON TUBE/SOCKET:Phosphor bronze tube,soldered to brass socket and tip(maximum temperature 150°F). CONNECTION:Bottom connection only,%4*NPT. HOW TO ORDER:State -quantity,catalog no.,size and range. NO.600C NOTE:For correct use and application of pressure gauges,see PRESSURE GAUGE STANDARD B40.1 STANDARD PRESSURE,COMPOUND &VACUUM RANGES FOR NO.600C GAUGE "ENGLISH RANGES METRIC RANGESDlatRangeFig.intervals Minor Divisions Kg.Kilo-In.tn.fn.cm.(force)Figure Minor pescais (Si)Figure Minorhg.of of vac.per Intervals Divisions Intervals DivisionsVac.psig Vac.psig |Vac.psig |vac.cm Vac.Press. 30 to 0 5 -0;5-0]76to 0 15 cm 1cm 100 to 0 10 230to15|10 -5}.5-5 |76to 1 |20cm 5 5em .1 100 to 100 20 230to30|10 -5/1-|76to 2/1 20cm 5 Scm .1 100 to 200 50 530to60|10 --10;1-1}76to 47]25cm 1 Sem .1 100 to 400 50 1030to100|30 -10;2-2]76to 7 |76 1 15cm .2 100 to 600 100 1030to150|30 -25);5-2]76to 10 |76 1 15cm .2 100 to 1000 100 2030to300|30 -50]§--5 |76to 21 |76 3 38cm 5 100 to 2000 400 20Oto1532Oto12.02 Oto 100 10 2Oto3055Oto2.2 .05 Oto 200 20 2Oto60101Oto4.2 5 Pa Oto 400 50 5Oto100102Oto712Oto70070010Oto160202Oto11110to120020020Oto200202Oto14220to150030020Oto300505Oto213.2 0 to 2000 200 20Oto400505Oto28450to3C0050050Oto60010010Oto42610to400050050Oto100010010Oto701010to70001000100 "English ranges are stock ranges. O-30 MME O-Lo Wt&f4S 2g" ya 5 ME ads cout See DIAL THERMOMETERS=T rr |ri CC Ee BIMETAL TYPE ADJUSTABLE ANGLE5”DIAL SIZE The TRERICE 5”Adjustable Angle Bimetal Thermometer case may be rotated 360°and angled over 180°,providing ease of viewing. DESCRIPTION CASE:Type 300 Series Stainless Steel,highly polished,hermetically sealed. RING:Type 300 Series Stainless Steel,highly polished. WINDOW:Double strength glass is standard.Plastic is available on special order Rotates Adjusts on ranges up to 500°F.360°180°DIAL:White finished aluminum with black &blue markings.Dual scale °F &°Cis RECALIBRATOR:An external recalibrator for indicator adjustment is furnished standard. ACCURACY:1%of full scale. CONNECTION:Type 300 Series Stainless Steel,fixed v2"NPT is standard.A swivel type 2”NPT union connection is available on special!order.Union con- nected thermometers must be installed in a well.To order with swivel connection add SW to order no.;e.g.,BES560405SW. STEM:Type 300 Series Stainless Steel,%"O.D.The internal bimetal coil is sili- cone dampened for maximum temperature sensitivity and minimum pointer vib- ration on ranges thru 300°F. CAUTION:On pressure or corrosion applications,a proper thermowell should be selected to protect the stem from damage and to facilitate the removal of the\thermometer from the process without shutting it down. Liquid filling is recommended for vibrationa!applications.Silicone liquid fill 7 available on ranges up thru 500°F.When using a 22”stem length thermometer,How re Dy the Range Noaber”catalog number,maximum immersion of the stem is essential for correct temperature indication.EXAMPLE:25 B8560405 (Range Is 20 to 240°F CASE TEMPERATURE:Must not exceed 200°F (93°C).Higher temperatures may&-10 to 115°C.)cause failure of the window. standard./POINTER:Balanced aluminum with black finish. Dial!face is adjustable for easy viewing. CATALOG NUMBERS Gestc2 Ag\(hein) STEM LENGTHS 2%”a”6”9”12”5 Auf/-47 fras5”DIAL SIZE --ADJ.ANGLE B85602 BB5604 B85606 885609 B85612 6 yee :ee,Pee S80 Bid foe a '04,os.AllWl axcora:ps xNGESfeenaS77,08,09 =|NOTE:These thermometers may be supplied in 3”dial faces.See next page. RANGES SHADED ARE STOCK RANGES. STANDARD RANGES DIMENSIONS RANGE °F SCALE |°C SCALE anNO.DUAL SCALE ©Div.|Fig.Int|*Div.IFig.int,3m Se 01 --100 to 100°F &-75to 40°C 2 20 1 10 )CALIBAATION 02 =40to 160°F &-40to 7ovc |2 |20[1 |10 "wenn 03 t 25to 125°F &-5to 50°C 1/0w||§H to04Oto200°F &-20to a5°c |21 20|7 |10 J na 05 20to 240°F &-10to11sec |2 |20]1 |20]|Murzann a 27 Oto 250°F &-20to120°C |2]50]2 |20 n ie Bi 06 50to 300°F &10to1so°;c |2]50{2 |20 y \we om 08 50 to 500°F &10 to 260°C 5 2 {|§0 J mind09+150to 750°F &50to 400°C |10 |100]5 50 }woven10|t°200to 1000°F &10010 550°C |10 |100]5 |100 |ve ®|im any Ratbone (OCA fOmtMinimumstemlengthsfortheserangesis4”.|AROUND THE Oras *Not recommended for continuous service above 800°F or 425°C.Y Single scale or special ranges are available on special order.A Over temperature Limits:Ranges up to 250°F 100%of span,ranges above |250°F 50%of span. uy J . :"8 ™RE,eee neti as ane Tee Paige gs US ue Remote Temperature Controllers T6054A Utility Line Voltage Thermostat (APPROXIMATE DIMENSIONS:7%in.[184 mm]high,2 in.[51 mm]provides spdt heavy-duty,line-voltage temper-ature control in ventilation,heating or cooling wide,25s in.[67 mm}deep.systems.Wsni ELEMENT:Hydraulic. Use in a variety of farm,industrial or commercial ELECTRICAL RATINGS {A):applications. @ Wall or duct mount in any position.|120 Vac |240 VaceFastresponse,tin-plated element not affected by T6054A1005aoeetcongonment.Full Load 7.4 37@Rugg. ¢Mounts on flat surface with three screws.Locked Rotor 44.4 22.2 Resistive 10.0 5.0APPROVALBODIES:T6054A 1054ListedbyUnderwritersLaboratoriesInc-File E4436,GuideXAPX.Full Load 16.0 8.0CertifiedbyCanadianStandardsAssociation-File LR95329-1.Locked Rotor 96.0 48.0 Resistive 10.0 10.0 *TRADELINE model. Order'-"47 enesete _-374s --_ee ara sagen -"..AS ona =-Number .:{= ling 2 Ses Fe SPAM CEST Fate eGo:Shem}in.”|mm}:in:|mm*T6054A1005 |Spdt.Can be!-30to +100 |-34 to +38 3.5,fixed |1.9,fixed 7%a |194]2%|67]2 |51adiusedinheating- cooling systerns|with externalT6054A10548|changeover|+35to +110 |+2 to +43 3.5,fixed |1.9,fixed|Heating |7%|194]2%67 |2 |51Switch.cooling4Brushedzinccover. T6054B;T6064A,B Return Air Controllers < Used with a standard rdeq thermostat tolimitroomtemperaturecontrolpaintonheat- ing and cooling, Ehsites |mall |ieee:aed. ca)ELECTRICAL RATINGS PER SWITCH (A):FAfsafooe T6054B,T6064A T6064B-{24 |120 |240 |120 |240 |277|vac |vac |vac |vac |vac |vacPilotDuty”5A]125/125]-|--_4 ¢760548 and T6064A provide fast responsewithhydraulictemperaturesensingelementsmountedontheunit. Sensor elements consist of two capillaries;one for heating,one for cooling.T6064B sensor design permits mounting ofsensorsinretumairpathinpackagedairconditioningunits.®Mounts in any position. *Narrow switch differential. *Set points are concealed under cover. VA VA __16 8 6.7 a »._|Ditferential |.'Appiinc.-File £4436,Guide HEAR esha a3 |S F=]07 |eationAssociation-File LR95329.1.*7605481003|1-spat 160 to Bol16 taaz|0.8 |0.4 Heating-*T6064A1003|2-spat >Coolingm}high,4 in.[102 mm]wide,2%in. T6096481001 2-spdt_|55 to 85/13 to 29]3.0 |b 31 mm]high,2 in.(51 mm]wide,2%in.(54 mm}2 Switches make R-W on temperature rise;make R-B on temper.a . APPROVAL BODIES: listed by Underwriters Laboratories XAPX. Certified by Canadian StandardAPPROXIMATEDIMENSIONS”T6064A,B-5%in.[14(54 mm}deep.T60548-7ejdeep.16064A-Sensing element adds 1%in.[38 mm]to height 364 Seneca TRADELINE om