510 C – 06/10 C – Pag. 2/48
Installation, Operation and Maintenance Manual510 C – 06/10 CDate: October 2006Supersedes: 510 C – 05/10 B!"#McQuay is participating in the Eurovent Certification Program. Productare as listed in the Eurovent Directory of Certified Products and on theweb site www.eurovent-certification.com
510 C – 06/10 C – pag. 2/48
IntroductionGeneral descriptionEach unit is completely assembled, wired, evacuated, charged, tested, ready for installation. The maincomponents are air-cooled condensers with integral sub-cooler sections, accessible semi-hermetic single-screwcompressors, shell-and-tube evaporators, shell-and-tube water heat recovery condensers (optional), oilseparators, complete refrigerant piping and electrical panel (including control and power sections). Liquid linecomponents are shut-off valves, charging valves, filter-dryers, sight-glass/moisture indicators, electronic expansionvalves, liquid receivers (only with total heat recovery option). Other features are compressor heaters, evaporatorheater for low ambient water freeze protection, automatic pump-down during circuit shutdown and fully integratedmicroprocessor control system.The chiller uses R134a refrigerant and operates at positive pressures.Purpose of the manualThe manual allows the installer and the operator to perform correctly all the required operations for unit installationand maintenance without any damages to the chiller or to qualified personnel.NomenclatureALS F XE 312 . 3 LN 134ALSAir cooled screw chillerFReleaseSEXEStandard efficiencyHigh efficiency163 520Unit size234N of compressorsSTLNXNXXNStandard versionLow noise versionExtra low noise versionSuper quiet134Refrigerant HFC 134a510 C – 06/10 C– pag. 3/48
InstallationReceiving and handlingThe unit should be inspected immediately after receipt for possible damage.All items on the bill of lading should be carefully checked to insure a complete shipment. Unit should be carefullychecked and shipping damages should be reported to the carrier. Unit serial plate should be checked beforeunloading the unit to be sure that it agrees with the power supply available. Physical damage to unit afteracceptance is not McQuay’s responsibility.ResponsibilitiesMcQuay Italia declines all present and future responsibilities referred to injuries to people and damages to thingsand to the unit, coming from operators negligence, the un-respected installation/maintenance data carried in thismanual, the lacking of the current regulations respect referred to the safety of both the equipment and the qualifiedpersonnel in charge for the installation and the maintenance.Servicing and maintenance personnelExperienced personnel must carry out servicing and maintenance of the unit with specific training in refrigeration.Regular checking of safety devices should be carried out, but routine maintenance should be carried out in linewith the recommendation list in the main section.The simple design of the refrigeration circuit minimises potential problems during normal unit operation.SafetyThe unit must be suitably clamped to the ground.It is necessary to follow these cautions and warnings.- It is possible to lift the unit only using the proper tools fixed in the base frame on the yellow holes able to supportthe weight of the unit.- No admittance to unauthorised or unqualified personnel should be allowed.- No operation on the electrical components is allowed without having switched off the power supply.- No operation on the electrical components is allowed without using insulated platforms; no water or moistureshould be present.- All the operation on refrigerant circuit and pressurised components are to be performed by qualified personnelonly.- Only qualified personnel should be allowed to perform compressor substitution or oil addition.- Sharp edges and coil surface are a potential injury hazard. Avoid contact with them.- Disconnect all electrical power supply to the unit while servicing condenser fan motors. Not respecting that rulemay cause body injury.- Avoid contamination of unrelated bodies into the water piping during the unit connection to the water system.It is necessary that a mechanical filter is fitted to the piping connected to the evaporator inlet.The unit is equipped with safety relief valves installed on refrigerant circuit both in high and low pressure side.WarningBefore any operation check the instruction for use.Installation and maintenance have to be performed only by qualified personnel skilled about chillers, local codesand regulations. Unit installation must be avoided in areas that could be considered dangerous for maintenanceoperations.TransportIt is necessary to be sure of the stability of the unit during transportation. Therefore the unit is supplied with atransversal wooden beam placed on the unit base that must to be removed only after the final destination. In casethe unit has to be moved again, a similar solution is necessary.510 C – 06/10 C – pag. 4/48
Handling and liftingCare should be taken to avoid rough handling or shock due to the unit drop. Do not push or pull the unit fromanything else than the base, and block the pushing vehicle away from the unit to prevent damage to the sheetmetal cabinet and end frame.Never allow any part of the unit to fall during unloading or moving as this may result in serious damage.To lift the unit suitable holes are provided in unit base and spreader bars and cables should be used to preventdamage to the condenser coils or cabinet.Suggested lifting arrangement for units with 2 compressorsUse spreader bars to avoiddamage to the unitSuggested lifting arrangement for units with 3 & 4 compressors510 C – 06/10 C– pag. 5/48
LocationALS F is produced for outside installation on roof floors or below ground level on condition that the area is freefrom obstacles for condenser air flow. The unit should be positioned on solid foundations and perfectly leveled; incase of installation on roofs or floors, it may be advisable to arrange the use of suitable weight distribution beams.When the unit is installed on the ground, concrete base, at least 250 mm wider and longer than the unit’s footprint,should be laid. Furthermore this base should withstand the unit weight mentioned in the technical data table. Whenthe unit is positioned in area that is easily accessible by persons or animals, it is advisable to fit guards forcondenser coil guards and, when necessary, guards for evaporator area.To obtain the best performance in the location area, consider as follows. Avoid a short airflow re-circulation. Take care that obstacles do not obstruct proper airflow. To reduce noise and vibration, stiff floor is required. Avoid dusty ambient for condenser cleanness protection. Chiller water must be quite clean, oil traces and rust particles have to be removed. It is necessary to fit a waterfilter on the entering water pipes.Space requirementsALS F unit is air-cooled, hence it is important to assure a sufficient airflow across the condenser coils.Two conditions must be avoided to achieve the best performance: warm air re-circulation and coil starvation.Both these conditions cause condensing pressure increase that results in unit efficiency and capacity reduction.Each side of the unit must be accessible after installation for periodic service. Picture 3 shows minimum clearancerequirements.Vertical condenser air discharge must be unobstructed, because the unit would have its capacity and efficiencysignificantly reduced.If the unit is positioned in area surrounded by walls or obstacles of the same height as the unit, the unit should beat least 2500 mm from obstacles (picture 4). If obstacles are higher than the unit, the unit should be at least 3000mm from obstacles (picture 5). Unit installed closer than the minimum recommended distance to wall or othervertical riser may experience a combination of coil starvation and warm air re-circulation, thus causes unit capacityand efficiency reductions.When two or more units are positioned side by side it is recommended that the condenser coils of each unit are atleast at 3600 mm distance (picture 6).For different installation solutions, consult McQuay technicians.Picture 3Picture 5510 C – 06/10 C – pag. 6/48Picture 4Picture 6
Acoustic protectionWhen the noise level must meet special requirements it will be necessary to pay the maximum attention to ensurethe perfect insulation of the unit from the support base by applying appropriate vibration-dampening devices,applying vibration-dampening mounts on the water pipes and on the electrical connections.Water pipingDue to the variety of piping practices, it is advisable to follow the recommendations of local authorities. They cansupply the installer with the proper building and safety codes required for a safe and proper installation.Basically, the piping should be designed with a minimum number of bends and changes in elevation to keepsystem cost down and performance up. It should contain:1. Vibration eliminators to reduce vibration and noise transmission to the building.2. Shutoff valves to isolate the unit from the piping system during unit servicing.3. Manual or automatic air vent valves at the higher points of the system. Drains at the lower points of the system.The evaporator and heat recovery condensers should not be the highest point in the piping system.4. Devices to maintain adequate system water pressure (e.g., expansion tank or regulating valve).5. Water temperature and pressure indicators located at the unit to aid in unit servicing.6. A strainer or devices to remove foreign matter from the water before it enters the pump. The strainer should beplaced far enough upstream to prevent cavitation at the pump inlet (consult pump manufacturer forrecommendations). The use of a strainer will prolong pump life and help maintain high system performancelevels.7. A strainer should be placed in the supply water line just prior to the inlet of the evaporator and heat recoverycondensers. This will aid in preventing foreign material from entering and decreasing the performance of theheat exchangers.8. The shell-and-tube evaporator has a thermostat and electric heater to prevent freeze-up down to -28 C. Anywater piping to the unit must be protected to prevent freezing.9. The shell-and-tube heat recovery condensers must be empty of water during the winter season, unless you fillthe water circuit with ethylene glycol10.If the unit is used as a replacement chiller on a previously existing piping system, the system should bethoroughly flushed prior to new unit installation and then regular chilled water analysis and chemical watertreatment is recommended immediately at equipment start-up.11.In the event glycol is added to the water system, as an afterthought for freeze protection, recognize that therefrigerant suction pressure will be lower, cooling performance less, and water side pressure drop greater.System safety devices such as freeze protection and low pressure protection must be reset.Prior to insulating the piping and filling the system, a preliminary leak check should be made.Evaporator/Heat Recovery condenser Freeze ProtectionAll evaporators are equipped with electric heater thermostatically controlled that provide freeze protection downto -28 C. However, this should not be the only method of freeze protection. Unless the evaporator and heatrecovery condensers are flushed and drained as is described below in note 4, two or more of the remaining threerecommendations must be followed as part of the system design:1. Continuous circulation of water through the piping and the heat exchanger.2. Filling of glycol solution in the chilled water circuit.3. Additional insulation and heating of the exposed piping.4. Draining and flushing the chiller vessel with air during winter season.It is the responsibility of the installing contractor and/or on-site maintenance personnel to insure that this additionalprotection is provided. Routine checks should be made to insure adequate freeze protection is maintained.Failure to do so may result in damage to unit components. Freeze damage is not considered a warranty failure.510 C – 06/10 C– pag. 7/48
Flow SwitchA water flow switch must be mounted in either the entering or leaving water line to insure an adequate water flowthrough the evaporator before starting the unit. This will safeguard against slugging the compressors on start-up. ItALS F serves to shut down the unit in the event that water flow is interrupted to protect against evaporator freezeup. Whenever the unit is equipped with the heat recovery condensers a water flow switch must be mounted ineither the entering or leaving water line to insure an adequate water flow before switching the unit in “Heatrecovery mode”. It prevents against the unit shut-down for high condensing pressure.A flow switch is available from McQuay and it is a "paddle" type switch and adaptable to any pipe size from 5"(127mm) to 8" (203mm) nominal.Certain minimum flow rates are required to close the switch and are listed in Table 1.Flow direction marked on switchNPT flow switch connectionTeeNOMINAL PIPESIZE INCHES (MM)MINIMUM REQUIRED FLOWTO ACTIVATE SWITCH –LITERS PER SECONDS5 (127)6 (152)8 (203)3.75.08.8Table 1Table 2 – Operating limits – ALS F SEUnit versionMax ambient temperatureMin ambient temperatureMax leaving evaporator water temperatureMin leaving evap. water temp. (without glycol)Min leaving evap. water temp. (with glycol)Max evaporator TMin evaporator TNotes: C C C C C C CST 44 10 (2) 9 4-884-884XN 40 10 (2) 9 4-884XXN 40 (1)-10 (3) 9 4-884When air temperature is higher then 32 C fan speed control device (standard on XXN units) sets up speed rotationincreasing cooling capacity and sound pressure level.(2) When air temperature is lower than 10 C you need the fan speed control device. It allows the unit working with airtemperature down to –10 C. Speedtrol allows to reach –18 C.(3) Fan speed control device is standard furnished on the XXN units.(1)Table 3 – Operating limits – ALS F XEUnit versionMax ambient temperatureMin ambient temperatureMax leaving evaporator water temperatureMin leaving evap. water temp. (without glycol)Min leaving evap. water temp. (with glycol)Max evaporator TMin evaporator TNotes:LN 40 10 (2) 9 4 C C C C C C CST 48 10 (2) 9 4-884LN 44 10 (2) 9 4-884XN 44 10 (2) 9 4-884XXN 40-10 (3) 9 4-884When air temperature is lower than 10 C you need the fan speed control device. It allows the unit working with airtemperature down to –10 C. Speedtrol allows to reach –18 C.(3) Fan speed control device is standard furnished on the XXN units.(2)510 C – 06/10 C – pag. 8/48
Physical data ALS F SE ST HFC 134aUnit sizeCooling capacity (1)Power input (1)COPMcQuay Screw compressorsRefrigerant circuitsRefrigerant charge HFC 134aOil chargeMin % of capacity reductionCondenser fansNo. of fans / nominal power fanFan speedDiameterTotal air flowEvaporatorEvaporators / water volumeMax operating pressureWater connection diameterCondenser coilCoil typeWeight and dimensionsStandard unit shipping weightStandard unit operating weightUnit lengthUnit widthUnit heightUnit sizeCooling capacity (1)Power input (1)COPMcQuay Screw compressorsRefrigerant circuitsRefrigerant charge HFC 134aOil chargeMin % of capacity reductionCondenser fansNo. of fans / nominal power fanFan speedDiameterTotal air flowEvaporatorEvaporators / water volumeMax operating pressureWater connection diameterCondenser coilCoil typeWeight and dimensionsStandard unit shipping weightStandard unit operating weightUnit lengthUnit widthUnit heightNotes: ,5kWrpmmm3m 2/1,786080063,312/1,786080064,5N /24610,5168,31/24610,5168,3kWkWN N 03,03221282812,58862823,15221282812,5Lanced fins – internally spiral wound 834621022302520Note (2)N N 82428,3344.312264043,0433192428,3kWrpmmm3m 18/1,786080089,718/1,786080095,0N /40210,5219,11/40210,5219,1kWkWLanced fins – internally spiral wound 830920022302520Cooling capacity and power input are based on 12/7 C entering/leaving water temp. and 35 C air ambient temp.Power input is for compressor only.For cooling capacity in the middle of 886kW and 988kW, select XE unit.510 C – 06/10 C– pag. 9/48
Physical data ALS F SE ST HFC 134aUnit sizeCooling capacity (1)Power input (1)COPMcQuay Screw compressorsRefrigerant circuitsRefrigerant charge HFC 134aOil chargeMin % of capacity reductionCondenser fansNo. of fans / nominal power fanFan speedDiameterTotal air flowEvaporatorEvaporators / water volumeMax operating pressureWater connection diameterCondenser coilCoil typeWeight and dimensionsStandard unit shipping weightStandard unit operating weightUnit lengthUnit widthUnit heightNotes: (1)(2)N N kgl%358.313224213,1433192428,3kWrpmmm3m ,724/1,7860800129N /lbarmm1/40210,5219,12/254 24610,5168,32/246 24610,5168,32/246 24610,5168,3kWkWNote 6566,25495.417725643,1544256566,25Lanced fins – internally spiral wound 520Cooling capacity and power input are based on 12/7 C entering/leaving water temp. and 35 C air ambient temp.Power input is for compressor only.For cooling capacity in the middle of 1322kW and 1520kW, select XE unit.Electrical data ALS F SE ST HFC 134aUnit sizeStandard voltage (1)Nominal unit current (2)Max compressor current (3)Fans currentMax unit current (3)Max unit inrush current (4)Max unit current for wires sizing (5)Unit sizeStandard voltage (1)Nominal unit current (2)Max compressor current (3)Fans currentMax unit current (3)Max unit inrush current (4)Max unit current for wires sizing (5)Unit sizeStandard voltage (1)Nominal unit current (2)Max compressor current (3)Fans currentMax unit current (3)Max unit inrush current (4)Max unit current for wires sizing 2921336994109696119212921336400 V – 3f – 50 3358.375681672888107910027448207289210791002400 V – 3f – 50 Hz400 V – 3ph – 50 HzAllowed voltage tolerance 10%. Voltage unbalance between phases must be within 3%.Nominal current are based on: 12/7 C entering/leaving evaporator water temperature and 35 C ambient temp.Maximum current are based on: 14/9 C entering/leaving evaporator water temperature and 44 C ambient temp.Inrush current of biggest compressor 75 % of nominal absorbed current of the other compressor fans current.Compressor FLA fans current.510 C – 06/10 C – pag. 10/48
Physical data ALS F SE LN HFC 134aUnit sizeCooling capacity (1)Power input (1)COPMcQuay Screw compressorsRefrigerant circuitsRefrigerant charge HFC 134aOil chargeMin % of capacity reductionCondenser fansNo. of fans / nominal power fanFan speedDiameterTotal air flowEvaporatorEvaporators / water volumeMax operating pressureWater connection diameterCondenser coilCoil typeWeight and dimensionsStandard unit shipping weightStandard unit operating weightUnit lengthUnit widthUnit heightUnit sizeCooling capacity (1)Power input (1)COPMcQuay Screw compressorsRefrigerant circuitsRefrigerant charge HFC 134aOil chargeMin % of capacity reductionCondenser fansNo. of fans / nominal power fanFan speedDiameterTotal air flowEvaporatorEvaporators / water volumeMax operating pressureWater connection diameterCondenser coilCoil typeWeight and dimensionsStandard unit shipping weightStandard unit operating weightUnit lengthUnit widthUnit heightNotes: (1)(2)N N 82812,5241.28683052,84221282812,5kWrpmmm3m 80048,612/168080048,6N /24610,5168,31/24610,5168,3kWkWLanced fins – internally spiral wound 834621022302520Note (2)N N 33182428,3%344.311754322,7233192428,3kWrpmmm3m 080068,818/168080072,9N /40210,5219,11/40210,5219,1kWkWLanced fins – internally spiral wound 830920022302520Cooling capacity and power input are based on 12/7 C entering/leaving water temp. and 35 C air ambient temp.Power input is for compressor only.For cooling capacity in the middle of 868kW and 945kW, select XE unit.510 C – 06/10 C– pag. 11/48
Physical data ALS F SE LN HFC 134aUnit sizeCooling capacity (1)Power input (1)COPMcQuay Screw compressorsRefrigerant circuitsRefrigerant charge HFC 134aOil chargeMin % of capacity reductionCondenser fansNo. of fans / nominal power fanFan speedDiameterTotal air flowEvaporatorEvaporators / water volumeMax operating pressureWater connection diameterCondenser coilCoil typeWeight and dimensionsStandard unit shipping weightStandard unit operating weightUnit lengthUnit widthUnit heightNotes: (1)(2)N N kgl%358.312964562,8433192428,3kWrpmmm3m 080098,0N /lbarmm1/40210,5219,12/254 24610,5168,32/246 24610,5168,32/246 24610,5168,3kWkWNote 6566,25495.417356102,8444256566,25Lanced fins – internally spiral wound 520Cooling capacity and power input are based on 12/7 C entering/leaving water temp. and 35 C air ambient temp.Power input is for compressor only.For cooling capacity in the middle of 1296kW and 1457kW, select XE unit.Electrical data ALS F SE LN HFC 134aUnit sizeStandard voltage (1)Nominal unit current (2)Max compressor current (3)Fans currentMax unit current (3)Max unit inrush current (4)Max unit current for wires sizing (5)Unit sizeStandard voltage (1)Nominal unit current (2)Max compressor current (3)Fans currentMax unit current (3)Max unit inrush current (4)Max unit current for wires sizing (5)Unit sizeStandard voltage (1)Nominal unit current (2)Max compressor current (3)Fans currentMax unit current (3)Max unit inrush current (4)Max unit current for wires sizing 312881016109748114512531288400 V – 3f – 50 3358.3765807368431050966760821368571050966400 V – 3f – 50 Hz400 V – 3f – 50 HzAllowed voltage tolerance 10%. Voltage unbalance between phases must be within 3%.Nominal current are based on: 12/7 C entering/leaving evaporator water temperature and 35 C ambient temp.Maximum current are based on: 14/9 C entering/leaving evaporator water temperature and 40 C ambient temp.Inrush current of biggest compressor 75 % of nominal absorbed current of the other compressor fans current.Compressor FLA fans current.510 C – 06/10 C – pag. 12/48
Physical data ALS F SE XN HFC 134aUnit sizeCooling capacity (1)Power input (1)COPMcQuay Screw compressorsRefrigerant circuitsRefrigerant charge HFC 134aOil chargeMin % of capacity reductionCondenser fansNo. of fans / nominal power fanFan speedDiameterTotal air flowEvaporatorEvaporators / water volumeMax operating pressureWater connection diameterCondenser coilCoil typeWeight and dimensionsStandard unit shipping weightStandard unit operating weightUnit lengthUnit widthUnit heightUnit sizeCooling capacity (1)Power input (1)COPMcQuay Screw compressorsRefrigerant circuitsRefrigerant charge HFC 134aOil chargeMin % of capacity reductionCondenser fansNo. of fans / nominal power fanFan speedDiameterTotal air flowEvaporatorEvaporators / water volumeMax operating pressureWater connection diameterCondenser coilCoil typeWeight and dimensionsStandard unit shipping weightStandard unit operating weightUnit lengthUnit widthUnit heightNotes: (1)(2)N N 82812,5241.28683052,84221282812,5kWrpmmm3m 80048,612/168080048,6N /24610,5168,31/24610,5168,3kWkWLanced fins – internally spiral wound 074621022302520Note (2)N N 82428,3344.311754322,7233192428,3kWrpmmm3m 080068,818/168080072,9N /40210,5219,11/40210,5219,1kWkWLanced fins – internally spiral wound 340920022302520Cooling capacity and power input are based on 12/7 C entering/leaving water temp. and 35 C air ambient temp.Power input is for compressor only.For cooling capacity in the middle of 868kW and 945kW, select XE unit.510 C – 06/10 C– pag. 13/48
Physical data ALS F SE XN HFC 134aUnit sizeCooling capacity (1)Power input (1)COPMcQuay Screw compressorsRefrigerant circuitsRefrigerant charge HFC 134aOil chargeMin % of capacity reductionCondenser fansNo. of fans / nominal power fanFan speedDiameterTotal air flowEvaporatorEvaporators / water volumeMax operating pressureWater connection diameterCondenser coilCoil typeWeight and dimensionsStandard unit shipping weightStandard unit operating weightUnit lengthUnit widthUnit heightNotes: (1)(2)N N 073,622/168080089,024/168080097,124/168080098,0N /lbarmm1/40210,5219,12/254 24610,5168,32/246 24610,5168,32/246 24610,5168,3kWkWNote 6566,25495.417356102,8444256566,25Lanced fins – internally spiral wound 2520Cooling capacity and power input are based on 12/7 C entering/leaving water temp. and 35 C air ambient temp.Power input is for compressor only.For cooling capacity in the middle of 1296kW and 1457kW, select XE unit.Electrical data ALS F SE XN HFC 134a2Unit sizeStandard voltage (1)Nominal unit current (2)Max compressor current (3)Fans currentMax unit current (3)Max unit inrush current (4)Max unit current for wires sizing (5)Unit sizeStandard voltage (1)Nominal unit current (2)Max compressor current (3)Fans currentMax unit current (3)Max unit inrush current (4)Max unit current for wires sizing (5)Unit sizeStandard voltage (1)Nominal unit current (2)Max compressor current (3)Fans currentMax unit current (3)Max unit inrush current (4)Max unit current for wires sizing 312881016109748114512531288400 V – 3f – 50 3358.3765807368431050966760821368571050966400 V – 3f – 50 Hz400 V – 3f – 50 HzAllowed voltage tolerance 10%. Voltage unbalance between phases must be within 3%.Nominal current are based on: 12/7 C entering/leaving evaporator water temperature and 35 C ambient temp.Maximum current are based on: 14/9 C entering/leaving evaporator water temperature and 40 C ambient temp.Inrush current of biggest compressor 75 % of nominal absorbed current of the other compressor fans current.Compressor FLA fans current.510 C – 06/10 C – pag. 14/48
Physical data ALS F SE XXN HFC 134aUnit sizeCooling capacity (1)Power input (1)COPMcQuay Screw compressorsRefrigerant circuitsRefrigerant charge HFC 134aOil chargeMin % of capacity reductionCondenser fansNo. of fans / nominal power fanFan speedDiameterTotal air flowEvaporatorEvaporators / water volumeMax operating pressureWater connection diameterCondenser coilCoil typeWeight and dimensionsStandard unit shipping weightStandard unit operating weightUnit lengthUnit widthUnit heightUnit sizeCooling capacity (1)Power input (1)COPMcQuay Screw compressorsRefrigerant circuitsRefrigerant charge HFC 134aOil chargeMin % of capacity reductionCondenser fansNo. of fans / nominal power fanFan speedDiameterTotal air flowEvaporatorEvaporators / water volumeMax operating pressureWater connection diameterCondenser coilCoil typeWeight and dimensionsStandard unit shipping weightStandard unit operating weightUnit lengthUnit widthUnit heightNote: (1)N N 147428,3kWrpmmm3m 13/0,350080033,314/0,350080035,916/0,350080042,1N /lbarm
Nomenclature ALS F XE 312 . 3 LN 134 ALS Air cooled screw chiller F Release . consult McQuay technicians. Picture 5 Picture 6 Picture 3 Picture 4 . 510 C – 06/10 C– pag. 7/48 . Basically, the piping should be designed with a minimum
Cashier’s Office SSC-115 (510) 215-4892 Childcare Services & Lab ELC (510) 215-4885 College Skills Center LLRC (510) 215-4898 Cooperative Education LLRC-212 (510) 215-4916 Counseling SSC-108 (510) 215-3935 Custodial Services C (510) 215-4809 Disabled Students Progra
County Contact List . Jurisdiction Disease/Role Name E-Mail Phone Number Fax Number . Alameda Accounts Emily Yette Emily.Yette@acgov.org 510-268-2092 510-2678085 Alameda CD Munira Shemsu Munira.Shemsu@acgov.org 510-208-2084 510-273-3744 Alameda CD Nicole Huerta Nicole.Huerta@acgov.org 510-267-3250 510-273-3744
Section 410.3 Sea Level Rise Section 410.3 Summary Chapter Five. Living Resources and Critical Habitats Section 510. Findings of Fact Section 510.1 Narrow River Ecosystem Section 510.2 Wetlands Habitats Section 510.3 Open Water and Aquatic Habitats Section 510.4 The Terrestrial Habitat Section 510.5 Summary
510-25451-91 Pilot Transfer Valve (Schrader Bellows) 510-05071-03 Pilot Transfer Valve (Alkon Corp. SP-5046) (replaces airman pilot valve) 510-05072-00 Pilot Transfer Valve (Norgren) 510-05588-20 Pilot Valve (Hendrickson) (one up / one down) 510-05314-20 Dial-A-Ride Suspension Control Panel (Hendrickson) PAGE 8
Our Lady of Guadalupe School 40374 Fremont Blvd. Fremont, CA 94538 (510) 657-1674 FAX (510) 657-3659 Email: LKeltie@csdo.org Web Site: www.guadalupe-school.com Extended Care Office (510) 657-1683 Extended Care Cell (510) 853-8294 Faith Formation Office (510) 651-4966 Our Lady of Guadalupe Parish Of
The cobas 4800 system software integrates the sample preparation with nucleic acid amplification and detection to generate test results. 510(k) Premarket Notification 510(k) Summary Report Page 4. Roche Molecular Systems, Inc. cobasQ) CT/NG Test Pleasanton, CA 94588-2722 Section 5: 510(k) Summary 510(k) Summary Report 2. .
Jan 24, 2018 · 2. API 510 The inspector should be familiar with and understand any rules for welding in API-510. Any rules for welding given in API-510 shall take precedence over those covering the same areas in ASME, Section VIII, Div. 1. 3. "Editorial" and non-technical requirements for the welding subject matter, the candidate is to be tested on, are excluded.File Size: 432KB
CVS PHARMACY #09250 885 A Island Dr Alameda, CA 94502 (510) 865-2155 CVS PHARMACY #09255 931 Marina Village Pkwy Alameda, CA 94501 (510) 523-3504 CVS PHARMACY #17657 2700 5Th St Alameda, CA 94501 (510) 214-0932 SAFEWAY PHARMACY #0951 Berkeley, CA 94704 867 Island Dr Alameda, CA 94502 (510) 747-1647 SAFEWAY PHARMACY #2708
