Installation & Operation Manual Hydronic Installation & Operation Manual Engineering Specifications GeoSource Hydronic Models RGS-W036 RGS-W120
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Table of Contents I. Key & Legend... 2 Key to Model Numbers... 2 Configuration Options... 3 Legend for Tables... 3 II. Warnings & Cautions... 4 III. General Information... 4 Inspection... 4 Storage... 5 Protection... 5 Pre-Installation Preparation... 5 IV. Best Practices... 5 System Sizing... 5 V. System design... 6 Ground Source Design... 6 Storage Tanks... 8 Hydronic Side Circulators... 8 Circulation Fluid... 9 Expansion Tanks... 10 Application Diagrams... 10 Unit location/mounting... 10 VI. Electrical... 11 Controller... 11 Compressor Anti-Short Cycle... 11 Compressor Control... 11 Ground Loop Pump / Ground Water Initiation... 12 Hydronic Circulator Pump Control... 12 Reversing Valve Control... 12 Compressor Lockouts... 12 System Diagnostics... 12 24VAC Fuse... 12 Plug Accessory (PA)... 12 Alarm Output... 13 VII. Heat Pump Commissioning... 13 Maintenance... 14 VIII. Accessories... 14 Room Thermostat... 14 Desuperheater... 14 IX. Engineering Specifications... 16 Performance Ratings... 16 Performance Data... 18 Physical Dimensions... 32 Electrical Data... 33 Water Coil Pressure Drop Ratings... 34 X. Figures... 36 XI. Troubleshooting... 41 Wiring Diagram... 45 1
I. KEY & LEGEND KEY TO MODEL NUMBERS R G S - W 036 - A R X - P C - XXX [Application] R = Series [Build] G = GeoSource [Compressor] S = Single Stage [Configuration] W = Water (hydronic) [Special] Mfg Code [Heat Exchanger] C = Copper N = Cupronickel source coil [Blower] X = none [Unit Size] 036 = 3 Ton 048 = 4 Ton 060 = 5 Ton 072 = 6 Ton 084 = 7 Ton 120 = 10 Ton [Domestic Hot Water] S = Desuperheater X = none [Air Return] L = Left Return (vertical) R = Right Return (vertical) X = none [Electrical Supply] A = 208/230V-60Hz, Single Phase D = 208/230V 50HZ, Three Phase* M = 208/230V-60Hz, Three Phase* N = 460V-60Hz, Three Phase* *(Special order, lead time varies. Not available on all sizes, contact Customer Service) 2
CONFIGURATION OPTIONS Standard Special Order - Not Available Model Suffix Description 036 048 060 072 084 120 RGS W*** - A** - ** - *** Standard, 208/230-1, 60 Hz RGS W*** - **X - ** - *** Standard, No Desuperheater RGS W*** - **S - ** - *** Desuperheater RGS W*** - *** - *C - *** Standard, Copper RGS W*** - *** - *N - *** Cupronickel source coil RGS W*** - M** - ** - *** 208/230-1, 60 Hz, Three Phase RGS W*** - N** - ** - *** 460V-60Hz, Three Phase LEGEND FOR TABLES BTU/hr Heating or cooling capacity GPM Gallons Per Minute CAP Capacity HE Heat Extracted COP Coefficient of performance (BTU/hr out : BTU/hr in) HR Heat Rejected CFM Cubic feet per minute HYD Hydronic DB Dry-bulb entering air temperature kw Kilowatt DEWT Demand Entering Water Temperature LLTC Liquid Line Temperature Cooling DHW Demand Hot Water LLTH Liquid Line Temperature Heating DLWT Demand Leaving Water Temperature LRA Locked-rotor amperage dp Pressure drop across heat pump LWT Leaving water temperature DSH Desuperheater MBTU/hr Btu/hr x 1000 EER Energy efficient ratio (BTU/hr CAP : watts in) RLA Rated-load amperage EWT Entering water temperature SLT Suction Line Temperature FLA Full-load amperage VA Volt-amperes GND Ground WB Wet-bulb entering air temperature 3
II. WARNINGS & CAUTIONS Note Always refer to the inside of the front cover for the correct wiring diagram, and always refer to the nameplate on the exterior of the cabinet for the correct electrical specifications. WARNING Service of refrigerant-based equipment can be hazardous due to elevated system pressures and hazardous voltages. Only trained and qualified personnel should install, repair or service. Installer is responsible to ensure that all local electrical, plumbing, heating and air conditioning codes are followed. WARNING ELECTRICAL SHOCK CAN CAUSE PERSONAL INJURY OR DEATH. Disconnect all power supplies before installing or servicing electrical devices. Only trained and qualified personnel should install, repair or service this equipment. WARNING THE UNIT MUST BE PROPERLY GROUNDED! The main electrical service must be protected by a fuse or circuit breaker and be capable of providing the amperes required by the unit at nameplate voltage. All wiring must comply with the national electrical code and/or any local codes that may apply. Access to the line voltage contactor is through the knockouts provided on the side of the heat pump as labeled. Route EMT or flexible conduit with appropriate size and type of wire. Ensure adequate supply wiring to minimize the level of dimming lights during compressor startup on single-phase installations. Some dimming is normal upon compressor start-up. CAUTION Route field electrical wiring to avoid contact with electrically live bare metal parts inside the electrical box. CAUTION Three-phase units must be wired properly to ensure proper compressor rotation. Improper rotation may result in compressor damage. An electronic phase sequence indicator must be used to check supply-wiring phases. Also, the Wild leg of the three-phase power must be connected to the middle leg on the contactor. WARNING Verify refrigerant type before servicing. The nameplate on the heat pump identifies the type and the amount of refrigerant. All refrigerant removed from these units must be reclaimed by following accepted industry and agency procedures. CAUTION Ground and hydronic loops must be freeze protected. Insufficient amounts of antifreeze may cause severe damage and may void warranty. Hydronic loop antifreeze must be nonflammable. Never operate with ground or hydronic loop flow rates less than specified. Continuous operation at low flow or no flow may cause severe damage and may void warranty. III. GENERAL INFORMATION INSPECTION Equipment should be inspected on receipt to assure that damage has not occurred during shipment of the unit. Carefully check the shipping company bill of lading against the packing slip to verify that all units and accessory packages have been received. Inspect each package for physical damage and ensure that the carrier makes notation of any damage or missing packages on bill of lading records. Pictures of the damage are recommended. Concealed damage should be reported to the shipping company immediately. 4
STORAGE Unit should be stored in a clean, dry location in the original shipping packaging. Units shall be stored in an upright position and should not be stacked unless noted on the shipping packaging. for any concealed damage Inspect electrical connections for cleanliness and attachment Inspect liquid connections to assure that any debris has been removed and caps are removed as appropriate. PROTECTION Units should be protected when on the building site from damage and contamination. Keep units covered or in original shipping packaging during job site construction. All physical connections (air supply and return, piping, electrical) should be protected and covered/capped prior to installation. PRE-INSTALLATION PREPARATION Locate the unit where there is adequate ventilation and room for servicing; minimum 12 clearance on all sides is recommended. Units should be placed on a level surface on a vibration absorbing pad slightly larger than the base of the unit. Care should be taken to use the proper duct size, piping is not hard-plumbed to the unit, and any sound or vibration is not transmitted into the surroundings. Units are designed for indoor installation only where the ambient temperature remains above 45 F. Do not use the heat pump for initial heating of the building during construction. Operating the heat pump during construction or renovation will subject the unit to contamination, potentially resulting in failure of the unit. Starting the heat pump in a cold environment may flush lubricant from the compressor resulting in compressor damage and ultimately, unit failure. Review the electrical data on the nameplate to assure that the correct unit has been shipped Carefully remove any packing material from the outside and inside of the unit and inspect IV.BEST PRACTICES SYSTEM SIZING Selecting the unit capacity of a hydronic geothermal heat pump requires four things: Building Heat Loss / Heat Gain. Ground Sources and Design Water Temperatures. Temperature Limitations. Hydronic-Side Operating Temperatures. BUILDING HEAT LOSS/HEAT GAIN The space load must be estimated accurately for any successful HVAC installation. There are many guides or computer programs available for estimating heat loss and gain, including the Manual J, and others. After the heat loss and gain analysis is completed, Entering Water Temperatures (EWT s) are established, and hydronic-side heating conditions are determined. The heat pump can now be selected using the hydronic heat pump data found in the Engineering Specifications (Section XI). Choose the capacity of the heat pump based on both heating and cooling loads. GROUND SOURCES AND DESIGN WATER TEMPERATURES Ground sources include the Ground Water (typically a well) and the Ground Loop varieties. Water flow-rate requirements vary based on 5
configuration. The Engineering Specifications section provides capacities at different loop entering water temperatures and hydronic entering water temperatures. GROUND LOOP SYSTEMS See figure 2 Loop systems use high-density polyethylene pipe buried underground to supply a tempered water solution back to the heat pump. Ground loops operate at higher flow rates than ground water systems because the loop Entering Water Temperature (EWT) is lower. EWT affects the capacity of the unit in both heating and cooling modes, and loops in cold climates are normally sized to supply wintertime EWT to the heat pump down to 25 F. GROUND WATER SYSTEMS See Figure 3 Note If a heat pump is installed with ground water, it should have a Cupro-Nickel water coil. Cupro-Nickel water coils withstand well water much better than standard water coils. TEMPERATURE LIMITATIONS Be aware of the operating range of the geothermal system when sizing the particular heat pump to avoid premature equipment failure. Operating outside of these limitations may cause severe damage to the equipment and may void warranty. CAUTIONS: Reference tables in section XI for acceptable operating conditions. HYDRONIC SIDE SYSTEM DESIGN This section deals with some common practices used when coupling the Enertech GeoSource hydronic heat pumps to the space conditioning heat exchanger. There are so many possible applications for hydronic systems that they cannot all be covered in this text. Note Systems must be constructed to appropriate codes and according to accepted plumbing practices. Caution Always use piping rated for the application. Check local codes for compliance. Important Pressure/Temperature port fittings are highly recommended for installation in the entering & leaving hydronic lines of the heat pump. V. SYSTEM DESIGN GROUND SOURCE DESIGN GROUND LOOP INSTALLATION A Ground Loop system circulates the same antifreeze solution through a closed system of high-density underground polyethylene pipe. As the solution passes through the pipe, it collects energy (in the heating mode) from the relatively warm surrounding soil through the pipe and into the relatively cold solution. The solution circulates to the heat pump, which transfers energy with the solution, and then the solution circulates back through the ground to extract more energy. CAUTION Ground Loops must be properly freeze protected. Insufficient amounts of antifreeze may result in a freeze rupture of the unit or can cause unit shutdown problems during cold weather operation. Propylene glycol is a common antifreeze solution. GeoSystems proprietary Geothermal Transfer Fluid (GTF) is methanolbased antifreeze and should be mixed 50% with 6
water to achieve freeze protection of 12 F. Propylene glycol antifreeze solution should be mixed 25% with water to obtain a 15 F freeze protection. Important Do not mix more than 25% propylene glycol with water in an attempt to achieve lower than 15 F freeze protection, since more concentrated mixtures of propylene glycol become too viscous at low temperatures and will become more difficult to pump through the earth loop. Horizontal loops typically use GTF, and vertical loops typically use propylene glycol. Note Always check State and Local codes for any special requirements on antifreeze solutions. CAUTION Never operate with flow rates less than specified. Low flow rates, or no flow, may cause the unit to shut down on a pressure lockout or may cause a freeze rupture of the heat exchanger. Important Pressure/Temperature (P/T) ports are highly recommended for installation in the entering and leaving water lines of the heat pump (see figure 2). A thermometer can be inserted into the P/T ports to check entering and leaving water temperatures. A pressure gauge can also be inserted into these P/T ports to determine the pressure differential between the entering and leaving water. This pressure differential can then be compared to the specification data on each particular heat pump to confirm the proper flow rate of the system. Filling and purging a loop system are very important steps to ensure proper heat pump operation. Each loop must be purged with enough flow to ensure two feet per second flow rate in each circuit in the loop. This normally requires a 1½ to 3 HP high-head pump to circulate fluid through the 7 loop to remove all the air out of the loop. Allow the pump to run 10 to 15 minutes after the last air bubbles have been removed. After purging is completed, add the calculated proper amount of antifreeze to give a 12 F to 15 F freeze protection. After antifreeze has been installed and thoroughly circulated, it should be measured with a hydrometer, refractometer, or any other device to determine the actual freezing point of the solution. The purge pump can be used to pressurize the system for a final static pressure of 30-40 psig after the loop pipe has had enough time to stretch. In order to achieve the 30 to 40 psig final pressure, the loop may need to be initially pressurized to 60-65 psig. This static pressure may vary 10 psig from heating to cooling season, but the pressure should always remain above 20 psig, to ensure circulation pumps do not cavitate or pull air into the system. Contact your local installer, distributor or factory representative for more information. GROUND WATER INSTALLATION Since water is the source of energy in the winter and the energy sink in the summer, a good water supply is possibly the most important requirement of a geothermal heat pump system installation. A Ground Water system gets its name from the open discharge of water after it has been used by the heat pump. A well must be available that can supply all of the water requirements of the heat pump for up to 24 hours/day on the coldest winter day plus any other water requirements drawing off of that same well. A bladder type pressure tank with a draw down of at least 1 ½ times the well pump capacity must be installed on the supply side of the heat pump. Important A screen strainer must be placed on
the supply line with a mesh size of 40 or 60 and enough surface area to allow for particle buildup between cleanings. Important Pressure/Temperature (P/T) ports are highly recommended to be placed in the supply and discharge lines so that thermometers or pressure gauges can be inserted into the water stream. Important A visual flow meter is highly recommended for installation to allow visual inspection of the flow to determine when maintenance is required. A solenoid control valve must be installed on the water discharge side of the heat pump to regulate the flow through the unit. Wire the solenoid to the Plug, Accessory connector on the controller. This valve opens when the unit is running and closes when the unit stops. Schedule 40 PVC piping, copper tubing, polyethylene or rubber hose can be used for supply and discharge water lines. Make sure line sizes are large enough to supply the required flow with a reasonable pressure drop (generally 1 diameter minimum). Consult local plumbing codes to ensure compliance. CAUTION Never operate with flow rates less than specified. Low flow rates, or no flow, may cause the unit to shut down on a pressure lockout or may cause a freeze rupture of the heat exchanger and void warranty. GROUND WATER FREEZE PROTECTION CAUTION Only equipment ordered with a CuNi coil shall be used on ground water applications. These units are provided with freeze protection. 8 STORAGE TANKS Important The heat pump must be coupled to the space conditioning system through a water storage tank. Important For units up to 8 ton capacity, the guideline for the active amount of fluid circulating between the heat pump and the storage tank is 10 gallons of fluid for each ton of hydronic heat pump capacity (Example, 50 gallons minimum for a 5-ton unit.) If the fluid only circulates through half of the storage tank, then that half of the storage tank must contain the minimum 10 gallons per ton. A properly sized storage tank eliminates many problems with multiple zone hydronic systems. The only instance where a storage tanks is not required is when the heat pump is coupled to a large heat exchanger containing the recommended amount of fluid capable of absorbing the entire capacity of the heat pump. Important The hydronic flow into the storage tank (particularly a water heater) must not be restricted. If the water heater has an internal diffuser dip tube, cut it off at approximately 12 inches into the tank. Tank temperature can be controlled with a simple set point controller such as an Aquastat. HYDRONIC SIDE CIRCULATORS Hydronic circulator pumps transfer the energy supplied by Enertech hydronic heat pumps to the water storage tank. Select a quiet operating pump with the ability to supply the required flow rate at the system pressure drop. The circulator supplying the heat pump must be placed in the water supply line into the unit to provide the best pump performance. Individual zone circulators must also be placed in the supply lines of the heat exchangers
they serve. These pumps are often used as the on/off control mechanism for the zone they supply as shown in Figure 4. Zone valves are also commonly used for this purpose using a common pump as shown in Figure 5. CAUTION Never operate with hydronic flow rates less than specified. Low flow rates, or no flow, may cause the unit to shut down on a pressure lockout or may cause a freeze rupture of the heat exchanger in cooling mode. Circulator pumps must be sized to provide the required flow to a heat pump heat exchanger at its corresponding system pressure drop calculated from the pressure drop through the piping, plus the pressure drop of the water storage tank, and plus the pressure drop through the heat pump heat exchanger. See the Engineering Specification section for water flow requirements and pressure drop. Use these tables for sizing the circulating pump between the hydronic side of the heat pump and a storage tank. A common problem with circulator pumps is trapped air in the system. This air accumulates in the suction port of the circulator causing cavitations in the pump, which leads to premature pump failure and noisy operation. The air can be eliminated by completely purging the system or by placing an air separator in the plumbing lines. The entire system must be purged of air during initial installation and pressurized to a 10-25 psig static pressure to avoid air entering the system. This static pressure may fluctuate when going from the heating to cooling modes but should always remain above zero. If a leak in the system causes the static pressure to drop, the leak must be repaired and the system repurged to assure proper system operation. pump should be controlled to run only when the compressor runs. If the pump is allowed to circulate cold water through the system during off cycles, the refrigerant in the heat pump will migrate to the hydronic side heat exchanger. This can cause heat pump starting problems (especially when this refrigerant migrates into the condenser). CIRCULATION FLUID The fluid circulating through the hydronic side of the geothermal heat pump system is the transfer medium for the heating and cooling being supplied to the conditioned space. Selection of this fluid is very important. Water is the most readily available fluid but has the drawback of expansion during freezing which can damage the system. System operation in the cooling mode, extended power interruption to a structure, or disabling of an outside zone (such as a garage floor) provides the opportunity for freezing the circulating fluid. CAUTION the hydronic side of the system must be freeze protected to reduce the risk of a freeze rupture of the unit. A propylene glycol based antifreeze (readily available through HVAC wholesalers) and water solution is recommended. A non-flammable antifreeze solution is recommended for use on any hydronic system where heat is being added to the system for structural heating purposes. Freeze protection for the hydronic side fluid down to 18 F (20% propylene glycol by volume in water) is recommended for most indoor applications. Forty percent (40%) propylene glycol in water (-5 F freeze protection) is recommended by radiant tube manufactures for snow melt applications to protect the tubing from expansion in outdoor applications. Using over 40% in hydronic side applications can cause pumping problems due to high viscosity. The hydronic side circulator supplying the heat 9
The water being added to the system should have 100-PPM grain hardness or less. If poor water conditions exist on the site, softened water is recommended, or acceptable water should be brought in. Bacteria or algae growth in the water is a possibility at the temperatures produced in the heating system and can cause buildup on hydronic side heat exchanger surfaces, reducing the efficiency of the system or causing the heat pump to run at higher head pressures and possibly lock out. Boiler system conditioner can reduce bacteria growth in the system. EXPANSION TANKS Expansion tanks must be used in the hydronic distribution side of the water-to-water system to absorb the change in pressure of the closed system due to the change in temperature when heat is supplied to the system. Diaphragm-type expansion tanks should be used. EPDM diaphragm tanks are compatible with glycol-based antifreeze fluids (butyl rubber diaphragms will slowly dissolve with glycol-based antifreezes). Expansion tanks from 1 to 10 gallons are generally used for the distribution system in residential applications. APPLICATION DIAGRAMS Figures 1 through 5 show the components of a hydronic heat pump system discussed above used in some common applications. These figures by no means represent all the possible hydronic heat pump applications, but they do show some important principals that can be applied to any system. UNIT LOCATION/MOUNTING CAUTION Units must be kept in an upright position during transportation or installation, or severe internal damage may occur. Never transport 10 a heat pump on its side or back. CAUTION Do not use this unit during construction. Dust and debris may contaminate electrical and mechanical components; resulting in damage. Important To ensure easy removal and replacement of access panels, leave panels secured in place until the unit is set in place and leveled. Important Locate the unit in an indoor area where the ambient temperature will remain above 45 F. Service is done primarily from the front. Top and rear access is desirable and should be provided when possible. Minimum clearance of 12 on each side is recommended. Important A field installed drain pan is required under the entire unit if accidental water discharge could damage surrounding floors, walls or ceilings. Check local codes for compliance. CAUTION Do not mount components or pipe to the exterior of the heat pump cabinet. Important Units must be mounted on a vibration absorbing pad slightly larger than the base to provide isolation between the unit and the floor. Water supply pumps shall not be hard plumbed directly to the unit with copper pipe; this could transfer vibration from the water pump to the refrigeration circuit, causing a resonating sound. The use of flexible water connections is recommended to eliminate transfer of vibration wherever possible. CAUTION Always use plastic male fittings into plastic female or into metal female fittings. Never use metal male fittings into plastic female fittings. On metal-to-metal fittings; use pipe thread compound, do not use pipe thread tape. Hand
tighten first, and then only tighten an additional ½ turn with a tool if necessary. On plastic fittings, always use 2 to 3 wraps of pipe thread tape. Hand tighten first, and then only tighten an additional ½ turn with a tool if necessary. Do not over-tighten, as damage may occur. VI. ELECTRICAL Note Always refer to the inside of the front panel for the correct wiring diagram. Important If the system s external controls require more power than shown in the engineering specification (see Engineering Specifications section), an external transformer and isolation relays should be used. In contrast, Figure 4 shows a fan coil system with its own power supply, which must interface to the heat pump to put the heat pump into the cooling mode. This can be accomplished by using the fan coil s independent power supply to energize the coil of an isolation relay with contacts located in heat pump's control circuit. Important Miswiring of 24Vac control voltage on system controls can result in transformer burnout. Important Units with a dual voltage rating (example, 208/230) are factory-wired for the higher voltage (example, 230). If connected to a power supply having the lower voltage, change the wiring to the transformer primary to the correct lead; otherwise premature failure, or inability to operate the control components may occur. CONTROLLER The heat pump controller receives a signal from the 11 remote hydronic control, initiates the correct sequence of operation for the heat pump, and performs the following functions: 1) Compressor Anti-Short Cycle 2) Compressor Control 3) Ground Loop Pump / Ground Water Initiation 4) Compressor Staging 5) Hydronic Circulator Pump Control 6) Reversing Valve Control 7) Compressor Lockouts 8) System Diagnostics 9) 24Vac Fuse 10) Plug Accessory 11) Alarm Output COMPRESSOR ANTI-SHORT CYCLE An Anti-Short-Cycle (ASC) is a delay period between the time a compressor shuts down and when it is allowed to come on again. This protects the compressor and avoids nuisance lockouts for these two conditions; 1. A 70 to 130-second random time-out period occurs before a re-start after the last shutdown. 2. A 4-minute, 25-second to 4-minute, 45-second random-start delay occurs immediately after power is applied to the heat pump. This occurs only after reapplying power to the unit. To reduce this timeout delay while servicing the unit, apply power, disconnect and reapply power very quickly to shorten the delay. COMPRESSOR CONTROL When 24Vac is applied to the Y terminal on the controller wiring block, the controller decides,
based on lockout and anti-short-cycle periods, when to turn on the compressor contactor. The M1 output of the controller energizes the until 24Vac is removed from the Y terminal. GROUND LOOP PUMP / GROUND WATER INITIATION contactor(s) On ground loop systems, a M1 output from the controller will energize the contactor to start the compressor and the ground loop pump. On ground water systems, the M1 output will also energize the ground water solenoid valve through the Plug Accessory connector. HYDRONIC CIRCULATOR PUMP CONTROL The hydronic circulator pump is energized either directly with the compressor contactor through the internal pump relay (RP) and 3-pole terminal block (BP) or through an isolation relay having its 24Vac coil wired to the Y and X terminals. REVERSING VALVE CONTROL When 24Vac is applied to the O terminal on the wiring block, the controller energizes its O output to provide 24Vac power to the reversing valve to switch the refrigerant circuit to the cooling mode. COMPRESSOR LOCKOUTS The controller will lock out the compressor if either of the following switches open: 1) high-pressure 2) low- pressure on ground loop or on ground water, or 3) high discharge refrigerant temperature. A lockout condition means that the unit has shut itself down to protect itself, and will not come back on until power has been disconnected (via the circuit breaker) to the heat pump for one minute. Problems that could cause a lockout situation include: 1. Low water flow or extreme water temperatures. 2. Cold ambient air temperature conditions. 12 3. Internal heat pump operation problems. CAUTION Repeated reset may cause severe damage to the system and may void warranty. The cause of the lockout must be determined and corrected. If a lockout condition exists, the heat pump should not be reset more than once; and a service technician should be called immediately. SYSTEM DIAGNOSTICS The controller is equipped with diagnostic LED lights that indicate the system status at any particular time. The lights indicate the following conditions: GREEN = 24 Volt system power YELLOW = Fault or Lockout RED = Anti-short-cycle mode If a set point controller installed with the heat pump system has a lockout indicator, the controller will send a signal from L on the terminal strip to a LED on the thermostat to indicate a lockout condition. 24VAC FUSE The controller has a glass-cartridge fuse located on the circuit board adjacent to the 24VAC power connector. The green system power LED will be off if this fuse is open. A spare fuse is located in the saddle attached to the side of the 24VAC power connector. Note Ensure the new fuse fits tightly in the fuse clips after replacement. PLUG ACCESSORY (PA) The Plug Accessory output is internally connected to the M1 output and is energized whenever M1 turns on the compressor contactor. The maximum
rating of this output is 10VA sealed and 20VA inrush and is typically intended to power a 24Vac ground water solenoid valve. Hydronic side water temperatures are warm enough (50 F or above) to start in the heating mode. ALARM OUTPUT This output is a 2-position screw terminal connector identified as Fault Test on the controller board and as DO on the wiring diagram. It is an isolated dry contract output (0.1 ohm resistance) that closes during a controller lockout and is intended for use as an input to a dial-out type of monitoring system. The maximum electrical rating is 2mA up to 30Vac or 50mA up to 40Vdc. VII. HEAT PUMP COMMISSIONING Before applying power to the heat pump, check the following items: Water supply plumbing to the heat pump is completed and operating. Manually open the water valve on well systems to check flow. Make sure all valves are open and air has been purged from a loop system. Never operate the system without correct water supply flow on either the ground side or the hydronic side. All high voltage and all low voltage wiring is correct and checked out, including wire sizes, fuses and breakers. Set system to the OFF position. Note the heat pump is located in a warm area (above 45 F). (Starting the system with low ambient temperature conditions is more difficult and may cause low-pressure lockout.) Do not leave the area until the space is brought up to operating temperatures. Apply power to the unit. A 4-minute and 35-second delay on power-up is programmed into the controller before the compressor will operate. During this time, the pump relay will energize the hydronic side-circulating pump. Verify the flow rate and temperature of the hydronic side flow. The following steps will ensure the system is heating and cooling properly. After the initial timeout period, the red indicator light on the controller will shut off. The heat pump is now ready for operation. Turn the heating set point to its highest temperature setting, and place the system to run in heating. The compressor should start 1 to 2 seconds later. After 5 minutes of heating operation, check hydronic-side return and supply water temperatures. A water temperature rise of 10 F to 15 F is normal (variation in water temperature and water flow rate can cause slight variations). A single pressure gauge can be used to check the fluid pressure drop through the heat exchangers to ensure proper flow for the system. Set the system to the OFF position. The compressor will shut down in 1 to 2 seconds. Next, turn the set point to its lowest setting. If applicable, place the system to run in cooling. The compressor will start after an anti-shortcycle period of 70 to 130 seconds from its last shutdown. The anti-short-cycle period is indicated by the red light on the controller. After 5 minutes of cooling operation, check hydronic side return and supply water temperatures. A water temperature drop of 13
10 F to 15 F is normal (variation in water temperature and water flow can cause slight variations). A single pressure gauge can be used to check the fluid pressure drop through the heat exchangers to ensure proper flow for the system. Set the system and the set point for normal operation. Instruct the owner on correct operation of the entire heat pump system. The unit is now operational. 4) Reset the system by disconnecting power at the circuit breaker for one minute and then restart. 5) If shutdown reoccurs, Call your Enertech dealer. Do not continuously reset the lockout condition or serious damage may occur. Note Improper fluid flows or incorrect antifreeze levels are the cause of almost all lockouts. VIII. ACCESSORIES MAINTENANCE Properly installed, the Enertech GeoSource heat pump requires only minor maintenance such as periodic cleaning of the ground water heat exchanger for heat pumps installed in groundwater applications. Regular service checkups with your Enertech dealer are recommended. Any major problems with the heat pump system operation will be indicated on the lockout lights. Dealers are trained to troubleshoot lockout occurrence. CAUTION During refrigerant evacuation for a system not having antifreeze protection in either the ground-side or the hydronic-side, water in the unprotected heat exchanger must be removed or continuously flowing to avoid a potential heat exchanger failure caused by freeze rupture. The heat pump controller will display a system lockout. If lockout occurs, follow the procedure below: 1) Determine and record which indicator lights on the Controller are illuminated. (Refer to Section Troubleshooting Section for more information on possible causes of Lockout Conditions.) 2) Check for correct water supply from the ground loop or ground water system. 3) Check for correct water supply on the hydronic side. ROOM THERMOSTAT Installations may include a wide variation of available electronic room thermostats, and most of them must be configured by the Installer and checked out after installation. If you have questions, please refer to the thermostat installation manual. DESUPERHEATER A GeoSource heat pump equipped with a doublewall vented desuperheater can provide supplemental heating of a home s domestic hot water heating by stripping a small amount of energy from the superheated gas leaving the compressor and transferring the heat to a hot water tank. A desuperheater pump, manufactured into the unit, circulates water from the domestic hot water tank, heats it and returns it to the tank. The desuperheater only provides supplemental domestic water heating when the compressor is already running. Because the desuperheater is using some energy from the heat pump to heat water, the heat pump s capacity in the winter is about 10% less than a unit without a desuperheater. CAUTION Running the desuperheater pump without water flow will damage the pump. A fuse 14
is attached to the fuse holder and must be inserted in the fuse holder after the desuperheater is purged and operational. Important Do not insert the fuse until water flow is available and the desuperheater is completely purged of air, or the pump may be damaged. Remove the fuse to disable the pump if the desuperheater isn t in operation. All air must be purged from the desuperheater plumbing before the pump is engaged. To purge small amounts of air from the lines, loosen the desuperheater pump from its housing by turning the brass collar. Let water drip out of the housing until flow is established, and re-tighten the brass collar. Using 1/2-inch or larger copper tubing from the tank to the desuperheater inlet is required to keep water velocities high, avoiding air pockets at the pump inlet. An air vent in the inlet line can also help systems where air is a problem. If one is used, mount it near the desuperheater inlet roughly 2-1/2 inches above the horizontal pipe. Shutoff valves allow access to the desuperheater plumbing without draining the hot water tank. Keep the valves open when the pump is running. Hot water tank maintenance includes periodically opening the drain on the hot water tank to remove deposits. If hard water, scale, or buildup causes regular problems in hot water tanks in your area, it may result in a loss of desuperheater effectiveness. CAUTION Insulated copper tubing must be used to run from the water tank to the desuperheater connections on the side of the unit. Desuperheater must be plumbed in copper tubing. copper tubing (or a combination of approximately 60 feet with typical elbows and fittings). This tubing can be connected to the water tank in two ways: METHOD 1 Using a desuperheater tee installed in the drain at the bottom of the water heater (See Figure 6). This is the preferred method for ease of installation, comfort and efficiency. The tee eliminates the need to tap into the domestic hot water lines and eliminates household water supply temperature variations that could occur from connecting to the hot water pipes. Poor water quality may restrict the effectiveness of the desuperheater tee by plugging it with scale or buildup from the bottom of the tank, restricting water flow. METHOD 2 Taking water from the bottom drain and returning it to the cold water supply line (See Figure 7). This method maintains the same comfort and efficiency levels but increases installation time and cost. Important This method requires a check valve in the return line to the cold water supply to prevent water from flowing backwards through the desuperheater when the tank is filling. Water passing through the pump backwards damages the rotor's bearing, which reduces pump life and causes noise problems in the pump. Note A spring-type check valve with a pressure-drop rating of 1/2 psig or less is recommended. The built-in desuperheater pump can provide the proper flow to the desuperheater if the total equivalent length of straight pipe and connections is kept to a maximum of 90 feet of 1/2-inch type L 15
IX. ENGINEERING SPECIFICATIONS PERFORMANCE RATINGS Heating Performance Data (Tested in accordance with ASHRAE/AHRI/ ISO Standard 13256-2) Models RGS-W036 RGS-W048 RGS-W060 RGS-W072 RGS-W084 RGS-W120 Application Source EWT ( F) Load EWT ( F) Entering GPM (source & load) Total Heat Output (MBH) Heat of Absorption (MBH) Total Heat Pump Watts Ground Water 50 F 35.5 25.0 2,600 3.7 104 F 9 Ground Loop 32 F * 29.3 18.6 2,700 3.2 Ground Water 50 F 57.0 41.0 4,010 3.9 104 F 12 Ground Loop 32 F * 43.9 29.2 4,000 3.1 Ground Water 50 F 64.9 48.1 3,300 3.6 104 F 15 Ground Loop 32 F * 53.0 34.6 4,888 3.2 Ground Water 50 F 81.0 53.6 5,670 4.0 104 F 18 Ground Loop 32 F * 65.5 34.6 5,660 3.4 Ground Water 50 F 89.0 62.1 6,850 4.1 104 F 20 Ground Loop 32 F * 74.2 45.4 6,730 3.1 Ground Water 50 F Ground Loop 32 F * 100.1 64.2 10,040 2.8 104 F 30 Ground Water 50 F 59.0 35.0 4,300 3.6 COP 118.1 80.0 9,650 3.4 Ground Loop 41 F 57.5 29.1 4,900 3.4 * Antifreeze required 16
Cooling Performance Data (Tested in accordance with ASHRAE/AHRI/ ISO Standard 13256-2) Models RGS-W036 RGS-W048 RGS-W060 RGS-W072 RGS-W084 RGS-W120 Application Source EWT ( F) Load EWT ( F) Entering GPM (source & load) Total Heat Output (MBH) Heat of Rejection (MBH) Total Heat Pump Watts Ground Water 59 F 37.3 42.8 1,400 23.5 53.6 F 9 Ground Loop 77 F 34.7 41.1 1,900 18.2 Ground Water 59 F 56.3 67.0 2,280 23.3 53.6 F 12 Ground Loop 77 F 52.8 62.8 2,775 17.7 Ground Water 59 F 69.0 78.4 2,710 24.0 53.6 F 15 Ground Loop 77 F 63.7 72.6 3,543 18.0 Ground Water 59 F 78.3 90.2 3,300 21.1 53.6 F 18 Ground Loop 77 F 65.5 84.0 4,200 17.7 Ground Water 59 F 88.7 101.8 5,000 20.8 53.6 F 20 Ground Loop 77 F 83.6 99.6 5,230 16.1 Ground Water 59 F Ground Loop 77 F 105.6 103.2 7,250 14.5 53.6 F 30 Ground Water 59 F 65.8 77.4 2,500 22.0 EER 110.8 124.5 7,900 21.0 Ground Loop 68 F 63.5 73.1 3,200 19.8 1 AHRI test point 17
PERFORMANCE DATA RGS-W036 HEATING PERFORMANCE DATA GROUND EWT F GPM dp psig dp ft 25 9 3.2 7.4 30 9 3.2 7.4 35 9 3.2 7.4 40 45 50 55 60 7 2 4.6 9 3.2 7.4 6 1.6 3.7 7 2 4.6 9 3.2 7.4 6 1.6 3.7 7 2 4.6 9 3.2 7.4 6 1.6 3.7 7 2 4.6 9 3.2 7.4 6 1.6 3.7 7 2 4.6 70 6 1.6 3.7 HYD LWT F TEMP RISE Hydronic Flow 7 GPM 2.0 PSIG dp, 4.6 FT dp COP 18 HE Hydronic Flow 9 GPM 3.2 PSIG dp, 7.4 FT dp TEMP HE COP RISE Refrigerant Pressure Suction Pressure Head Pressure 115 6.8 23.9 2.8 2.5 14.2 5.3 24.0 2.8 2.5 14.5 390-420 100 7.0 24.4 2.4 2.9 16.1 5.4 24.5 2.4 3.0 16.4 330-355 55-75 85 7.1 24.9 2.0 3.6 18.0 5.6 25.0 2.0 3.7 18.2 268-295 70 7.3 25.5 1.6 4.6 19.9 5.7 25.6 1.6 4.7 20.1 210-235 115 7.3 25.7 2.9 2.6 15.9 5.7 25.8 2.8 2.7 16.3 390 425 100 7.5 26.3 2.4 3.1 17.9 5.9 26.4 2.4 3.2 18.2 335 360 65-85 85 7.7 26.8 2.0 3.8 19.8 6.0 26.9 2.0 4.0 20.1 270 305 70 7.8 27.4 1.6 4.9 21.8 6.1 27.5 1.6 5.0 22.0 210 235 115 7.9 27.5 2.9 2.8 17.7 6.1 27.6 2.8 2.9 18.0 390 430 100 8.0 28.1 2.5 3.4 19.7 6.3 28.2 2.4 3.4 20.0 335 365 70-90 85 8.2 28.7 2.0 4.1 21.7 6.4 28.8 2.0 4.2 22.0 270 310 70 8.4 29.3 1.6 5.2 23.7 6.5 29.4 1.6 5.4 24.0 210 240 115 8.2 28.6 2.8 2.9 18.9 6.4 28.7 2.8 3.0 19.3 390 430 100 8.3 29.2 2.4 3.5 20.9 6.5 29.3 2.4 3.6 21.3 330 370 70-95 85 8.5 29.9 2.0 4.3 22.9 6.7 30.0 2.0 4.5 23.3 270 310 70 8.7 30.5 1.6 5.5 25.0 6.8 30.6 1.6 5.7 25.3 200 250 115 8.4 29.3 2.9 3.0 19.5 6.5 29.4 2.8 3.1 19.8 395 430 100 8.5 29.9 2.5 3.6 21.5 6.7 30.0 2.4 3.7 21.8 335 370 75-100 85 8.7 30.6 2.0 4.4 23.6 6.8 30.7 2.0 4.5 23.9 275 310 70 8.9 31.2 1.6 5.6 25.7 7.0 31.4 1.6 5.8 25.9 205 250 115 8.4 29.4 2.8 3.1 19.8 6.6 29.5 2.7 3.2 20.2 390 430 100 8.6 30.1 2.4 3.6 21.8 6.7 30.2 2.3 3.8 22.2 330 370 65-95 85 8.8 30.7 2.0 4.5 23.9 6.9 30.8 1.9 4.6 24.2 270 310 70 9.0 31.4 1.6 5.8 25.9 7.0 31.5 1.6 5.9 26.2 200 250 115 8.7 30.3 2.9 3.1 20.6 6.8 30.8 2.8 3.2 21.3 395 430 100 8.9 31.0 2.4 3.7 22.7 7.0 31.4 2.4 3.9 23.3 335 370 70-100 85 9.1 31.7 2.0 4.6 24.8 7.1 32.1 2.0 4.8 25.4 275 310 70 9.2 32.4 1.6 5.9 26.9 7.3 32.8 1.6 6.1 27.5 205-250 115 8.9 31.1 2.9 3.2 21.2 6.9 31.2 2.8 3.2 21.6 400-430 100 9.1 31.8 2.5 3.8 23.3 7.1 31.9 2.4 3.9 23.7 340-370 75-100 85 9.3 32.5 2.1 4.6 25.5 7.2 32.6 2.0 4.8 25.8 280-310 70 9.5 33.1 1.6 6.0 27.6 7.4 33.3 1.6 6.1 27.8 210-250 115 8.9 31.1 2.8 3.2 21.4 6.9 31.2 2.8 3.3 21.8 395-430 100 9.1 31.8 2.4 3.9 23.5 7.1 31.9 2.4 4.0 23.9 335-370 75-100 85 9.3 32.5 2.0 4.7 25.6 7.3 32.6 2.0 4.9 26.0 270-310 70 9.5 33.2 1.6 6.1 27.8 7.4 33.3 1.6 6.3 28.0 200-250 115 9.2 32.1 2.9 3.3 22.3 7.2 32.5 2.8 3.4 23.0 400-430 100 9.4 32.8 2.5 3.9 24.4 7.4 33.3 2.4 4.1 25.1 340-370 80-105 85 9.6 33.5 2.0 4.8 26.6 7.6 34.0 2.0 5.0 27.2 275-310 70 9.8 34.2 1.6 6.2 28.7 7.7 34.7 1.6 6.5 29.4 205-250 115 9.4 32.9 2.9 3.3 23.0 7.3 33.0 2.8 3.4 23.3 405-430 100 9.6 33.6 2.5 4.0 25.1 7.5 33.7 2.4 4.1 25.5 345-370 85 9.8 34.3 2.1 4.9 27.3 7.7 34.5 2.0 5.0 27.6 280-310 70 10.0 35.1 1.6 6.3 29.5 7.8 35.2 1.6 6.5 29.8 210-250 115 9.4 32.8 2.8 3.4 23.1 7.3 32.9 2.8 3.5 23.5 400-435 100 9.6 33.5 2.4 4.0 25.3 7.5 33.7 2.4 4.2 25.6 340-375 85-115 85 9.8 34.3 2.0 5.0 27.4 7.6 34.4 2.0 5.2 27.8 270-315 70 10.0 35.0 1.6 6.4 29.6 7.8 35.2 1.5 6.7 29.9 200-255 115 9.7 33.8 2.9 3.4 24.0 7.6 34.3 2.8 3.6 24.7 405-435 100 9.9 34.6 2.5 4.1 26.2 7.8 35.1 2.4 4.3 26.9 345-375 90-120 85 10.1 35.4 2.0 5.1 28.4 8.0 35.9 2.0 5.3 29.1 275-315 70 10.3 36.1 1.6 6.6 30.6 8.1 36.6 1.6 6.8 31.3 205-255 115 7.7 34.8 2.8 3.6 25.1 410-435 100 7.9 35.6 2.4 4.3 27.3 345-375 Operation Not Recommended 95-125 85 8.1 36.4 2.0 5.3 29.5 280-315 70 8.3 37.1 1.6 6.8 31.7 210-255 115 9.9 34.5 2.9 3.5 24.8 7.7 34.6 2.8 3.7 25.2 405-435 100 10.1 35.3 2.4 4.2 27.0 7.9 35.4 2.4 4.4 27.3 345-375 95-130 85 10.3 36.0 2.0 5.3 29.2 8.0 36.2 2.0 5.4 29.5 280-315 70 10.5 36.8 1.6 6.8 31.4 8.2 37.0 1.5 7.0 31.7 210-255 115 8.0 36.1 2.8 3.8 26.5 410-435 100 8.2 36.9 2.4 4.5 28.7 350-375 110-135 85 8.4 37.7 2.0 5.6 31.0 285-315 70 8.6 38.5 1.6 7.2 33.2 215-255 Operation Not Recommended 115 8.5 38.0 2.8 4.0 28.5 417-445 100 8.6 38.9 2.4 4.8 30.8 353-381 120-150 85 8.8 39.8 2.0 5.9 33.1 286-323 70 9.0 40.6 1.5 7.7 35.4 220-270
RGS-W036 COOLING PERFORMANCE DATA GROUND HYD LWT F EWT F GPM dp psig dp ft dt F 50 60 65 70 80 90 100 6 1.6 3.7 7 2 4.6 9 3.2 7.4 6 1.6 3.7 7 2 4.6 9 3.2 7.4 6 1.6 3.7 7 2 4.6 9 3.2 7.4 Hydronic Flow 7 GPM 2.0 PSIG dp, 4.6 FT dp EER HR Hydronic Flow 9 GPM 3.2 PSIG dp, 7.4 FT dp HR dt F EER 35 9.2 32.4 1.4 22.8 37.2 7.5 33.7 1.4 23.5 38.6 Refrigerant Pressure Suction Pressure Head Pressure 40 9.7 33.8 1.5 23.0 38.8 7.8 35.2 1.5 23.7 40.3 220-260 45 10.1 35.3 1.5 23.1 40.5 8.2 36.7 1.5 23.8 42.0 90-110 50 10.5 36.7 1.6 23.2 42.1 8.5 38.2 1.6 23.9 43.7 95-115 35 9.4 32.8 1.4 23.9 37.5 7.6 34.1 1.4 24.6 38.9 40 9.8 34.3 1.4 24.0 39.1 7.9 35.7 1.4 24.8 40.6 210-250 45 10.2 35.7 1.5 24.2 40.8 8.3 37.2 1.5 24.9 42.3 90-110 50 10.6 37.2 1.5 24.3 42.4 8.6 38.7 1.5 25.0 44.0 95-115 35 9.5 33.2 1.3 24.8 37.8 7.7 34.5 1.3 25.7 39.1 40 9.9 34.7 1.4 25.0 39.5 8.0 36.1 1.4 25.9 40.8 90-105 200-240 45 10.3 36.2 1.4 25.1 41.1 8.4 37.6 1.4 26.0 42.6 95-110 50 10.8 37.7 1.5 25.2 42.8 8.7 39.2 1.5 26.1 44.3 100-115 35 8.6 30.2 1.7 17.9 36.0 6.8 30.4 1.8 16.5 36.7 40 9.1 31.9 1.7 18.5 37.8 7.2 32.2 1.9 17.3 38.6 335-370 75-100 45 9.6 33.6 1.8 19.1 39.6 7.6 34.1 1.9 18.0 40.5 270-310 80-100 80-100 85-100 395-430 50 10.1 35.2 1.8 19.7 41.4 8.0 35.9 1.9 18.8 42.5 200-250 35 8.8 30.7 1.6 18.7 36.2 6.8 30.8 1.8 17.3 36.9 400-430 40 9.2 32.3 1.7 19.4 38.0 7.3 32.7 1.8 18.1 38.8 340-370 80-105 45 9.7 34.0 1.7 20.0 39.8 7.7 34.5 1.8 18.9 40.8 275-310 50 10.2 35.7 1.7 20.6 41.6 8.1 36.4 1.9 19.6 42.7 205-250 35 8.9 31.1 1.6 19.5 36.5 6.9 31.1 1.7 18.0 37.0 405-430 40 9.4 32.8 1.6 20.1 38.3 7.3 33.0 1.8 18.9 39.0 345-370 45 9.9 34.5 1.7 20.8 40.1 7.8 34.9 1.8 19.7 41.0 280-310 50 10.3 36.2 1.7 21.4 42.0 8.2 36.8 1.8 20.5 43.0 210-250 35 8.3 29.2 1.8 16.0 35.4 6.8 30.4 1.8 16.5 36.7 40 8.8 31.0 1.8 16.8 37.3 7.2 32.2 1.9 17.3 38.6 90-110 275-315 45 9.4 32.7 1.9 17.5 39.1 7.6 34.1 1.9 18.0 40.5 95-120 50 9.9 34.5 1.9 18.2 41.0 8.0 35.9 1.9 18.8 42.5 95-120 35 8.5 29.6 1.8 16.7 35.6 6.8 30.8 1.8 17.3 36.9 40 9.0 31.4 1.8 17.5 37.5 7.3 32.7 1.8 18.1 38.8 90-110 265-305 45 9.5 33.2 1.8 18.3 39.4 7.7 34.5 1.8 18.9 40.8 95-120 50 10.0 35.0 1.8 19.0 41.2 8.1 36.4 1.9 19.6 42.7 100-120 35 8.6 30.0 1.7 17.4 35.9 6.9 31.1 1.7 18.0 37.0 40 9.1 31.8 1.7 18.2 37.8 7.3 33.0 1.8 18.9 39.0 95-110 255-295 45 9.6 33.6 1.8 19.0 39.7 7.8 34.9 1.8 19.7 41.0 100-120 50 10.1 35.4 1.8 19.8 41.5 8.2 36.8 1.8 20.5 43.0 100-120 6 1.6 3.7 Operation Not Recommended 35 3.6 28.5 1.9 15.0 35.0 6.6 29.7 1.9 15.5 36.2 7 2 4.6 9 3.2 7.4 40 3.8 30.4 1.9 15.9 36.9 7.0 31.7 1.9 16.4 38.3 90-110 280-325 45 4.0 32.3 1.9 16.8 38.9 7.5 33.7 1.9 17.3 40.3 95-120 50 4.3 34.2 1.9 17.7 40.8 7.9 35.6 2.0 18.2 42.3 100-125 35 3.6 28.9 1.9 15.6 35.2 6.7 30.0 1.9 16.2 36.4 40 3.9 30.8 1.9 16.5 37.2 7.1 32.0 1.9 17.1 38.5 95-110 270-315 45 4.1 32.8 1.9 17.5 39.2 7.6 34.0 1.9 18.1 40.6 100-120 50 4.3 34.7 1.9 18.4 41.1 8.0 36.0 1.9 19.0 42.8 100-125 6 1.6 3.7 Operation Not Recommended 35 3.3 26.4 2.2 12.2 33.7 6.1 27.5 2.2 12.6 34.9 7 2 4.6 9 3.2 7.4 6 1.6 3.7 7 2 4.6 9 3.2 7.4 6 1.6 3.7 7 2 4.6 9 3.2 7.4 40 3.6 28.5 2.2 13.2 35.9 6.6 29.7 2.2 13.6 37.1 90-110 315-365 45 3.8 30.6 2.1 14.3 38.0 7.1 31.9 2.2 14.7 39.3 95-115 50 4.1 32.8 2.1 15.3 40.1 7.6 34.1 2.2 15.8 41.5 100-120 35 3.3 26.7 2.1 12.7 33.9 6.2 27.8 2.1 13.1 35.0 40 3.6 28.9 2.1 13.7 36.0 6.7 30.0 2.1 14.2 37.2 95-110 305-355 45 3.9 31.0 2.1 14.8 38.2 7.2 32.2 2.1 15.3 39.4 100-120 50 4.1 33.2 2.1 15.9 40.3 7.7 34.5 2.1 16.5 41.6 105-125 Operation Not Recommended 35 7.0 24.6 2.4 10.4 32.6 5.7 25.5 2.4 10.7 33.6 40 7.7 26.9 2.3 11.5 34.9 6.2 28.0 2.3 11.9 36.0 95-110 340-390 45 8.4 29.3 2.3 12.7 37.2 6.8 30.5 2.3 13.1 38.4 105-115 50 9.1 31.7 2.3 13.9 39.5 7.3 32.9 2.3 14.4 40.8 110-130 Operation Not Recommended 35 6.4 22.4 2.6 8.5 31.3 5.2 23.3 2.6 8.8 32.2 40 7.1 25.0 2.6 9.7 33.8 5.8 26.0 2.6 10.0 34.8 100-115 370-430 45 7.9 27.6 2.5 10.9 36.2 6.4 28.7 2.5 11.3 37.3 105-125 50 8.6 30.2 2.5 12.2 38.7 7.0 31.4 2.5 12.6 39.9 110-130 90-105 90-105 90-105 90-105 95-110 Operation at 40 EWT in cooling for long periods of time is not recommended, this is an extreme operating condition. Pressure: Suction +/- 5 psig & Discharge P +/- 10 psig. Pressure Drops with pure water. 19
RGS-W048 HEATING PERFORMANCE DATA GROUND HYD LWT F EWT F GPM dp psig dp ft dt F 25 12 2.6 6.0 30 12 2.6 6.0 35 12 2.6 6.0 40 45 50 55 60 9 2.2 5.1 12 2.6 6.0 6 1.5 5.0 9 2.2 5.1 12 2.6 6.0 6 1.5 5.0 9 2.2 5.1 12 2.6 6.0 6 1.5 5.0 9 2.2 5.1 12 2.6 6.0 9 2.2 5.1 12 2.6 6.0 70 12 2.6 6.0 Hydronic Flow 9 GPM 2.2 PSIG dp, 5.1 FT dp COP 20 HE Hydronic Flow 12 GPM 2.6 PSIG dp, 6.0 FT dp HE dt F COP Refrigerant Pressure Suction Pressure Head Pressure 115 5.6 40.1 4.7 2.4 23.1 4.7 40.2 4.6 2.4 23.6 390-420 100 5.7 41.3 4.0 2.9 26.4 4.8 41.4 4.0 3.0 27.0 330-355 55-75 85 5.9 42.5 3.4 3.6 29.9 4.9 42.7 3.3 3.7 30.3 268-295 70 6.1 43.7 2.7 4.6 33.3 5.1 43.9 2.6 4.8 33.6 210-235 115 5.9 42.4 4.7 2.5 25.3 4.9 42.6 4.6 2.6 25.9 390-425 100 6.1 43.7 4.0 3.0 28.7 5.1 43.8 4.0 3.1 29.2 335-360 65-85 85 6.2 44.8 3.4 3.8 32.1 5.2 45.0 3.3 3.9 32.6 270-305 70 6.4 46.0 2.7 4.9 35.6 5.3 46.3 2.6 4.9 35.9 210-235 115 6.2 44.6 4.7 2.7 27.6 5.2 44.8 4.6 2.7 28.2 390-430 100 6.4 45.9 4.0 3.2 31.0 5.3 46.1 4.0 3.3 31.5 335-365 70-90 85 6.6 47.2 3.4 4.0 34.4 5.5 47.3 3.3 4.1 34.9 270-310 70 6.7 48.4 2.7 5.0 37.8 5.7 48.6 2.6 5.2 38.2 210-240 115 6.4 45.8 4.7 2.8 28.8 5.3 46.0 4.5 2.9 29.5 390-430 100 6.6 47.1 4.0 3.3 32.3 5.5 47.3 3.9 3.5 32.8 330-370 70-95 85 6.7 48.4 3.3 4.1 35.7 5.7 48.5 3.3 4.3 36.1 270-310 70 6.9 49.6 2.7 5.2 39.1 5.7 49.8 2.6 5.4 39.4 200-250 115 6.6 47.0 4.7 2.8 29.8 5.5 47.1 4.6 2.9 30.3 395-430 100 6.7 48.3 4.0 3.4 33.3 5.6 48.4 3.9 3.5 33.7 335-370 75-100 85 6.9 49.6 3.4 4.2 36.7 5.7 49.7 3.3 4.3 37.2 275-310 70 7.1 50.7 2.7 5.3 40.1 5.9 51.0 2.7 5.4 40.5 205-250 115 7.5 50.2 4.7 3.0 32.0 6.3 50.3 4.6 3.1 32.6 390-430 100 7.7 51.4 4.0 3.5 35.5 6.5 51.7 4.0 3.7 36.1 330-370 65-95 85 7.9 52.8 3.4 4.3 39.0 6.7 53.1 3.3 4.5 39.7 270-310 70 8.1 54.1 2.8 5.5 42.6 6.7 54.4 2.7 5.7 43.1 200-250 115 7.7 51.7 4.7 3.0 33.3 6.6 52.5 4.6 3.2 34.4 395-430 100 8.0 53.1 4.1 3.6 36.8 6.7 53.8 4.0 3.8 37.9 335-370 70-100 85 8.2 54.5 3.4 4.4 40.5 6.8 55.2 3.4 4.6 41.6 275-310 70 8.4 55.9 2.8 5.6 44.2 7.0 56.6 2.7 5.9 45.1 205-250 115 7.9 53.0 4.8 3.1 34.3 6.7 53.2 4.7 3.2 34.9 400-430 100 8.2 54.4 4.1 3.7 37.9 6.8 54.6 4.0 3.8 38.6 340-370 75-100 85 8.4 55.8 3.5 4.5 41.7 7.0 56.0 3.4 4.6 42.2 280-310 70 8.6 57.2 2.8 5.7 45.4 7.1 57.4 2.8 5.9 45.8 210-250 115 7.9 52.5 4.7 3.1 34.2 6.6 52.7 4.6 3.2 34.9 395-430 100 8.1 53.8 4.0 3.7 37.8 6.7 54.1 4.0 3.8 38.4 335-370 75-100 85 8.3 55.2 3.4 4.5 41.4 6.9 55.4 3.3 4.7 41.8 270-310 70 8.5 56.5 2.8 5.8 44.9 7.1 56.8 2.7 6.0 45.4 200-250 115 8.1 54.1 4.7 3.2 35.6 6.8 54.9 4.6 3.3 36.7 400-430 100 8.3 55.5 4.1 3.8 39.3 7.0 56.3 4.0 3.9 40.4 340-370 80-105 85 8.6 56.9 3.4 4.6 42.9 7.2 57.8 3.4 4.8 43.9 275-310 70 8.7 58.4 2.8 5.9 46.5 7.4 59.2 2.7 6.1 47.6 205-250 115 8.3 55.4 4.8 3.2 36.7 6.9 55.6 4.7 3.3 37.2 405-430 100 8.6 56.9 4.1 3.8 40.4 7.1 57.0 4.0 3.9 40.9 345-370 85 8.7 58.3 3.5 4.7 44.0 7.3 58.5 3.4 4.8 44.5 280-310 70 8.9 59.8 2.8 6.0 47.8 7.5 59.9 2.8 6.1 48.2 210-250 115 8.2 54.7 4.7 3.3 36.5 6.8 55.0 4.6 3.4 37.1 400-435 100 8.4 56.1 4.0 3.9 40.0 7.0 56.4 3.9 4.0 40.6 340-375 85-115 85 8.6 57.5 3.4 4.7 43.7 7.2 57.8 3.3 4.9 44.2 270-315 70 8.8 58.9 2.8 6.0 47.2 7.4 59.2 2.7 6.2 47.7 200-255 115 8.5 56.5 4.7 3.3 37.9 7.1 57.3 4.6 3.5 39.2 405-435 100 8.6 57.9 4.1 4.0 41.6 7.3 58.8 4.0 4.1 42.7 345-375 90-120 85 8.9 59.4 3.4 4.8 45.3 7.5 60.2 3.4 5.0 46.4 275-315 70 9.1 60.8 2.8 6.1 48.9 7.7 61.7 2.7 6.4 50.0 205-255 115 7.2 58.0 4.7 3.5 39.7 410-435 100 7.4 59.6 4.0 4.1 43.3 345-375 OPERATION NOT RECOMMENDED 95-125 85 7.6 61.1 3.4 5.0 47.0 280-315 70 7.8 62.6 2.8 6.4 50.8 210-255 115 8.6 57.0 4.7 3.4 38.7 7.1 57.3 4.6 3.5 39.4 405-435 100 8.7 58.5 4.0 4.0 42.3 7.3 58.8 3.9 4.2 42.9 345-375 95-130 85 8.9 59.9 3.4 4.9 45.9 7.5 60.2 3.3 5.1 46.5 280-315 70 9.2 61.3 2.8 6.3 49.5 7.7 61.6 2.7 6.5 50.0 210-255 115 7.1 57.3 4.6 3.5 39.4 410-435 100 7.3 58.8 3.9 4.2 42.9 350-375 110-135 85 7.5 60.2 3.3 5.1 46.5 285-315 70 7.7 61.6 2.7 6.5 50.0 215-255 OPERATION NOT RECOMMENDED 115 7.7 62.0 4.6 3.8 43.9 415-445 100 7.9 63.5 3.9 4.5 47.5 355-380 120-150 85 8.1 65.0 3.3 5.5 51.1 285 320 70 8.3 66.4 2.7 7.0 54.7 220-270 Operation at 40 EWT for long periods of time is not recommended, this is an extreme operating condition. Data subject to change. Pressure: Suction +/- 5 psig & Discharge P +/- 10 psig. Pressure Drops with pure water.
RGS-W048 COOLING PERFORMANCE DATA EWT F 50 60 65 70 80 90 100 Hydronic Flow 9 GPM GROUND HYD 2.2 PSIG dp, 5.1 FT dp LWT F HR GPM dp psig dp ft dt F EER 6 1.5 5.0 9 2.2 5.1 12 2.6 6.0 6 1.5 5.0 9 2.2 5.1 12 2.6 6.0 6 1.5 5.0 9 2.2 5.1 12 2.6 6.0 Hydronic Flow 12 GPM 2.6 PSIG dp, 6.0 FT dp HR dt F EER Refrigerant Pressure Suction Pressure Head Pressure 35 10.6 41.7 2.1 19.4 51.9 9.2 43.3 2.1 20.0 53.7 80-100 40 11.6 45.5 2.1 21.1 55.9 10.1 47.4 2.1 21.7 58.0 220-260 45 12.6 49.4 2.1 22.7 60.0 10.9 51.5 2.2 23.3 62.3 90-110 50 13.6 53.4 2.2 24.3 64.2 11.8 55.6 2.2 25.1 66.6 95-115 35 10.8 42.2 2.0 20.3 52.1 9.4 44.0 2.1 21.0 54.1 40 11.8 46.2 2.1 22.0 56.4 10.2 48.1 2.1 22.7 58.4 210-250 45 12.7 50.1 2.1 23.8 60.5 11.1 52.1 2.1 24.4 62.8 90-110 50 13.7 54.0 2.1 25.4 64.6 11.9 56.2 2.1 26.1 67.0 95-115 35 10.9 42.8 2.0 21.2 52.6 9.4 44.4 2.0 21.9 54.3 85-100 40 11.9 46.8 2.0 22.9 56.8 10.4 48.6 2.0 23.8 58.7 90-105 200-240 45 12.9 50.7 2.0 24.6 61.0 11.2 52.7 2.0 25.5 63.1 95-110 50 14.0 54.8 2.0 26.4 65.2 12.0 56.9 2.0 27.3 67.5 100-115 35 10.4 40.9 2.4 16.8 52.2 9.1 42.6 2.4 17.3 54.1 40 11.3 44.6 2.4 18.1 56.1 9.8 46.4 2.4 18.7 58.1 335-370 75-100 45 12.3 48.2 2.4 19.4 59.9 10.6 50.2 2.5 20.1 62.1 270-310 80-100 395-430 50 13.2 51.8 2.5 20.7 63.8 11.5 54.0 2.5 21.4 66.1 200-250 35 10.5 41.5 2.3 17.6 52.4 9.1 43.2 2.3 18.1 54.3 400-430 40 11.5 45.2 2.3 19.0 56.4 9.9 47.0 2.4 19.5 58.4 340-370 80-105 45 12.5 48.8 2.4 20.3 60.4 10.8 50.8 2.4 21.0 62.6 275-310 50 13.4 52.6 2.4 21.7 64.3 11.6 54.7 2.4 22.4 66.6 205-250 35 10.6 42.0 2.3 18.3 52.8 9.2 43.7 2.3 18.9 54.5 405-430 40 11.6 45.8 2.3 19.8 56.8 10.1 47.5 2.3 20.4 58.7 345-370 45 12.6 49.5 2.3 21.2 60.8 10.9 51.5 2.3 21.9 62.8 280-310 50 13.6 53.2 2.3 22.6 64.7 11.8 55.3 2.3 23.3 66.9 210-250 35 10.4 40.6 2.5 15.7 52.3 9.0 42.2 2.6 16.2 54.2 40 11.2 44.1 2.6 17.0 56.1 9.8 45.9 2.6 17.4 58.1 90-110 275-315 45 12.2 47.6 2.6 18.1 59.9 10.5 49.6 2.6 18.7 62.1 95-120 50 13.0 51.2 2.6 19.3 63.7 11.3 53.2 2.6 19.9 66.0 95-120 35 10.5 41.1 2.5 16.4 52.6 9.1 42.8 2.5 17.0 54.5 40 11.3 44.7 2.5 17.7 56.5 9.8 46.5 2.5 18.3 58.4 90-110 265-305 45 12.3 48.3 2.5 18.9 60.3 10.6 50.3 2.5 19.5 62.4 95-120 50 13.2 51.8 2.5 20.2 64.1 11.5 53.9 2.5 20.7 66.4 100-120 35 10.6 41.7 2.4 17.1 52.9 9.2 43.2 2.4 17.7 54.6 90-105 40 11.5 45.2 2.4 18.4 56.8 9.9 47.1 2.4 19.0 58.7 95-110 255-295 45 12.5 48.8 2.4 19.7 60.7 10.8 50.8 2.4 20.4 62.7 100-120 50 13.3 52.5 2.5 21.0 64.5 11.6 54.6 2.5 21.7 66.7 100-120 6 1.5 5.0 OPERATION NOT RECOMMEDED 35 6.4 40.7 2.6 14.9 50.0 9.0 42.4 2.6 15.3 51.8 40 7.0 44.2 2.6 15.9 53.5 9.8 46.0 2.6 16.4 55.4 90-110 9 2.2 5.1 280-325 45 7.6 47.6 2.6 17.1 57.0 10.5 49.6 2.7 17.6 59.1 95-120 12 2.6 6.0 50 8.1 51.0 2.7 18.1 60.5 11.3 53.1 2.7 18.6 62.7 100-125 35 6.6 41.3 2.5 15.4 50.2 9.1 42.9 2.5 15.9 51.9 90-105 40 7.1 44.8 2.6 16.5 53.8 9.8 46.5 2.6 17.2 55.6 95-110 270-315 45 7.7 48.3 2.6 17.7 57.4 10.6 50.2 2.6 18.3 59.3 100-120 50 8.3 51.8 2.6 18.8 60.9 11.3 53.8 2.6 19.4 63.0 100-125 6 1.5 5.0 OPERATION NOT RECOMMEDED 35 6.3 39.9 2.9 13.1 50.2 8.8 41.6 2.9 13.5 52.0 40 6.9 43.2 2.9 14.0 53.6 9.5 45.0 2.9 14.5 55.5 90-110 9 2.2 5.1 315-365 45 7.4 46.4 2.9 15.0 56.9 10.2 48.3 3.0 15.4 58.9 95-115 12 2.6 6.0 6 1.5 5.0 9 2.2 5.1 12 2.6 6.0 6 1.5 5.0 9 2.2 5.1 12 2.6 6.0 50 7.8 49.6 3.0 15.9 60.2 10.9 51.7 3.0 16.3 62.2 100-120 35 6.4 40.5 2.8 13.6 50.6 9.0 42.1 2.8 14.1 52.2 40 7.0 43.8 2.8 14.7 53.8 9.7 45.4 2.8 15.2 55.6 95-110 305-355 45 7.4 47.0 2.9 15.6 57.2 10.4 48.8 2.9 16.1 59.1 100-120 50 8.0 50.3 2.9 16.5 60.5 11.1 52.3 2.9 17.1 62.6 105-125 OPERATION NOT RECOMMEDED 35 10.1 39.7 3.1 12.3 50.8 8.8 41.3 3.1 12.7 52.4 90-105 40 10.9 42.8 3.1 13.0 54.0 9.4 44.4 3.1 13.5 55.6 95-110 340-390 45 11.6 45.8 3.1 13.8 57.0 10.1 47.5 3.1 14.2 58.9 105-115 50 12.5 48.7 3.2 14.6 60.1 10.8 50.7 3.2 15.1 62.0 110-130 OPERATION NOT RECOMMEDED 35 9.9 38.9 3.3 11.0 51.0 8.5 40.5 3.4 11.4 52.6 95-110 40 10.6 41.8 3.4 11.6 54.0 9.2 43.3 3.4 12.1 55.6 100-115 370-430 45 11.3 44.6 3.4 12.4 56.8 9.8 46.3 3.4 12.8 58.5 105-125 50 12.0 47.3 3.4 13.0 59.7 10.4 49.2 3.5 13.4 61.6 110-130 90-105 Operation at 40 EWT in cooling for long periods of time is not recommended, this is an extreme operating condition. Pressure: Suction +/- 5 psig & Discharge P +/- 10 psig. Pressure Drops with pure water. 21
RGS-W060 HEATING PERFORMANCE DATA EWT F Hydronic Flow 12 GPM GROUND HYD 2.1 PSIG dp, 4.8 FT dp LWT F HE GPM dp psig dp ft dt F EER 25 15 2.9 6.7 30 15 2.9 6.7 35 15 2.9 6.7 40 45 50 55 60 70 12 2.1 4.8 15 2.9 6.7 9 1.5 3.5 12 2.1 4.8 15 2.9 6.7 9 1.5 3.5 12 2.1 4.8 15 2.9 6.7 9 1.5 3.5 12 2.1 4.8 15 2.9 6.7 9 1.5 3.5 12 2.1 4.8 22 Hydronic Flow 15 GPM 2.9 PSIG dp, 6.7 FT dp HE dt F EER 115 7.3 43.9 5.1 2.5 26.5 5.9 44.0 5.0 2.6 27.1 Refrigerant Pressure Suction Pressure Head Pressure 390-420 100 7.6 45.5 4.4 3.1 30.6 6.1 45.7 4.3 3.1 31.1 330-355 55-75 85 7.9 47.1 3.6 3.8 34.7 6.3 47.3 3.6 3.9 35.2 268-295 70 8.1 48.7 2.9 4.9 38.7 6.5 48.9 2.9 5.0 39.2 210-235 115 7.8 46.8 5.1 2.7 29.3 6.3 47.0 5.0 2.8 29.9 390-425 100 8.1 48.6 4.4 3.2 33.6 6.5 48.8 4.3 3.3 34.2 335-360 65-85 85 8.4 50.4 3.7 4.0 37.9 6.7 50.6 3.6 4.1 38.4 270-305 70 8.7 52.2 2.9 5.2 42.2 7.0 52.4 2.9 5.4 42.6 210-235 115 8.3 49.8 5.2 2.8 32.1 6.7 50.0 5.1 2.9 32.8 390-430 100 8.6 51.7 4.4 3.4 36.6 6.9 52.0 4.3 3.5 37.2 335-365 70-90 85 8.9 53.7 3.7 4.3 41.1 7.2 53.9 3.6 4.4 41.6 270-310 70 9.3 55.6 2.9 5.5 45.6 7.4 55.8 2.9 5.7 46.0 210-240 115 8.6 51.6 5.2 2.9 33.9 6.9 51.8 5.0 3.0 34.6 390-430 100 8.9 53.6 4.4 3.5 38.5 7.2 53.8 4.3 3.7 39.1 330-370 70-95 85 9.3 55.6 3.7 4.4 43.1 7.4 55.9 3.6 4.6 43.7 270-310 70 9.6 57.7 2.9 5.8 47.7 7.7 57.9 2.8 6.0 48.2 200-250 115 8.8 52.8 5.2 3.0 35.0 7.1 53.0 5.1 3.0 35.6 395-430 100 9.1 54.9 4.5 3.6 39.6 7.3 55.1 4.4 3.7 40.2 335-370 75-100 85 9.5 57.0 3.7 4.5 44.3 7.6 57.2 3.6 4.6 44.8 275-310 70 9.8 59.0 2.9 5.9 49.0 7.9 59.3 2.9 6.0 49.5 205-250 115 8.8 52.8 5.2 3.0 35.2 7.1 53.0 5.0 3.1 35.9 390-430 100 9.1 54.9 4.4 3.7 39.9 7.4 55.1 4.3 3.8 40.5 330-370 65-95 85 9.5 57.0 3.6 4.6 44.6 7.6 57.3 3.5 4.7 45.2 270-310 70 9.9 59.1 2.9 6.0 49.3 7.9 59.4 2.8 6.2 49.8 200-250 115 9.1 54.5 5.2 3.1 36.6 7.4 55.2 5.1 3.2 37.9 395-430 100 9.4 56.6 4.5 3.7 41.4 7.7 57.4 4.3 3.9 42.6 335-370 70-100 85 9.8 58.8 3.7 4.7 46.2 8.0 59.6 3.6 4.9 47.4 275-310 70 10.2 61.0 2.9 6.1 51.0 8.2 61.9 2.8 6.4 52.1 205-250 115 9.3 55.8 5.3 3.1 37.8 7.5 56.0 5.2 3.2 38.4 400-430 100 9.7 58.0 4.5 3.8 42.6 7.8 58.2 4.4 3.9 43.2 340-370 75-100 85 10.0 60.2 3.7 4.7 47.5 8.1 60.5 3.6 4.9 48.1 280-310 70 10.4 62.5 3.0 6.2 52.4 8.4 62.7 2.9 6.4 52.9 210-250 115 9.3 55.6 5.2 3.1 37.8 7.4 55.8 5.1 3.2 38.6 395-430 100 9.6 57.9 4.4 3.8 42.7 7.7 58.1 4.3 3.9 43.4 335-370 75-100 85 10.0 60.1 3.7 4.8 47.6 8.1 60.4 3.6 5.0 48.2 270-310 70 10.4 62.4 2.9 6.3 52.5 8.4 62.6 2.8 6.5 53.0 200-250 115 9.6 57.4 5.3 3.2 39.4 7.8 58.2 5.1 3.3 40.7 400-430 100 10.0 59.7 4.5 3.9 44.4 8.1 60.5 4.4 4.1 45.6 340-370 80-105 85 10.3 62.0 3.7 4.9 49.4 8.4 62.9 3.6 5.1 50.6 275-310 70 10.7 64.4 2.9 6.4 54.4 8.7 65.3 2.9 6.7 55.5 205-250 115 9.8 58.7 5.3 3.2 40.6 7.9 59.0 5.2 3.3 41.2 405-430 100 10.2 61.1 4.5 3.9 45.7 8.2 61.4 4.4 4.1 46.3 345-370 85 10.6 63.5 3.7 5.0 50.7 8.5 63.8 3.7 5.1 51.3 280-310 70 11.0 65.9 3.0 6.5 55.8 8.8 66.2 2.9 6.7 56.3 210-250 115 9.7 58.4 5.3 3.3 40.5 7.8 58.7 5.1 3.4 41.2 400-435 100 10.1 60.8 4.5 4.0 45.6 8.1 61.1 4.3 4.1 46.3 340-375 85-115 85 10.5 63.2 3.7 5.0 50.6 8.5 63.5 3.6 5.2 51.3 270-315 70 10.9 65.6 2.9 6.6 55.7 8.8 65.9 2.8 6.8 56.3 200-255 115 10.0 60.3 5.3 3.3 42.1 8.1 61.1 5.2 3.5 43.5 405-435 100 10.5 62.8 4.5 4.1 47.3 8.5 63.6 4.4 4.2 48.6 345-375 90-120 85 10.9 65.2 3.7 5.1 52.5 8.8 66.1 3.6 5.3 53.8 275-315 70 11.3 67.7 2.9 6.8 57.7 9.2 68.7 2.9 7.0 58.9 205-255 115 8.3 62.0 5.2 3.5 44.1 410-435 100 8.6 64.5 4.5 4.2 49.3 345-375 OPERATION NOT RECOMMEDED 95-125 85 8.9 67.1 3.7 5.3 54.5 280-315 70 9.3 69.9 2.9 7.0 59.7 210-255 115 10.2 61.2 5.3 3.4 43.1 8.2 61.5 5.2 3.5 43.9 405-435 100 10.6 63.8 4.5 4.2 48.4 8.5 64.1 4.4 4.3 49.1 345-375 95-130 85 11.1 66.3 3.7 5.2 53.7 8.9 66.6 3.6 5.4 54.3 280-315 70 11.5 68.9 2.9 6.9 59.0 9.2 69.2 2.8 7.2 59.5 210-255 115 8.5 64.1 5.2 3.6 46.2 100 8.9 66.7 4.4 4.4 51.6 350-375 110-135 85 9.3 69.4 3.6 5.6 56.9 285-315 15 2.9 6.7 115 OPERATION NOT RECOMMEDED OPERATION NOT RECOMMEDED 115 9.0 67.2 5.2 3.8 49.3 9 1.5 3.5 12 2.1 4.8 15 2.9 6.7 410-435 70 9.6 72.1 2.9 7.4 62.3 215-255 417-445 100 9.3 70.0 4.4 4.6 54.8 353-381 120-150 85 9.7 72.8 3.6 5.9 60.4 286-323 70 10.1 75.7 2.8 7.8 66.0 220-270 OPERATION NOT RECOMMEDED
RGS-W060 COOLING PERFORMANCE DATA EWT F 50 60 65 70 80 90 100 Hydronic Flow 12 GPM Hydronic Flow 15 GPM GROUND HYD 2.1 PSIG dp, 4.8 FT dp 2.9 PSIG dp, 6.7 FT dp Refrigerant Pressure GPM dp psig dp ft LWT F HR HR Suction Head dt F EER dt F EER Pressure Pressure 35 7.9 47.4 2.8 17.2 56.9 6.6 49.4 2.8 17.7 58.9 80-100 9 1.5 3.5 40 8.9 53.7 2.8 19.0 63.3 7.4 55.9 2.8 19.6 65.6 220-260 45 10.0 59.9 2.9 20.8 69.7 8.3 62.3 2.9 21.4 72.3 90-110 50 11.0 66.1 2.9 22.5 76.1 9.2 68.8 3.0 23.2 78.9 95-115 35 8.0 48.1 2.7 18.0 57.2 6.7 50.1 2.7 18.5 59.3 80-100 12 2.1 4.8 40 9.1 54.4 2.7 19.9 63.7 7.5 56.6 2.8 20.5 66.0 210-250 45 10.1 60.7 2.8 21.8 70.2 8.4 63.2 2.8 22.4 72.8 90-110 50 11.2 67.0 2.8 23.5 76.7 9.3 69.7 2.9 24.3 79.5 95-115 35 8.1 48.7 2.6 18.7 57.6 6.8 50.6 2.6 19.3 59.6 85-100 15 2.9 6.7 40 9.2 55.1 2.7 20.7 64.2 7.6 57.3 2.7 21.4 66.4 90-105 200-240 45 10.2 61.5 2.7 22.6 70.8 8.5 63.9 2.7 23.4 73.2 95-110 50 11.3 67.9 2.8 24.5 77.3 9.4 70.5 2.8 25.3 80.0 100-115 35 7.6 45.5 3.1 14.7 56.0 6.3 47.3 3.1 15.2 58.0 395-430 9 1.5 3.5 40 8.6 51.4 3.1 16.3 62.1 7.1 53.5 3.2 16.8 64.3 335-370 75-100 45 9.5 57.3 3.2 17.8 68.2 7.9 59.6 3.2 18.4 70.7 270-310 50 10.5 63.1 3.3 19.2 74.3 8.8 65.7 3.3 19.8 77.0 200-250 35 7.7 46.1 3.0 15.4 56.3 6.4 48.0 3.0 15.9 58.3 400-430 12 2.1 4.8 40 8.7 52.1 3.1 17.1 62.5 7.2 54.2 3.1 17.6 64.7 340-370 80-105 45 9.7 58.0 3.1 18.6 68.6 8.1 60.4 3.1 19.2 71.1 275-310 50 10.7 64.0 3.2 20.1 74.8 8.9 66.6 3.2 20.8 77.6 205-250 35 7.8 46.7 2.9 16.0 56.6 6.5 48.5 2.9 16.6 58.5 405-430 15 2.9 6.7 40 8.8 52.7 3.0 17.7 62.9 7.3 54.8 3.0 18.4 65.0 345-370 45 9.8 58.8 3.0 19.4 69.1 8.1 61.1 3.0 20.0 71.5 280-310 50 10.8 64.8 3.1 20.9 75.4 9.0 67.4 3.1 21.7 78.0 210-250 35 7.4 44.5 3.2 13.7 55.6 6.2 46.3 3.3 14.1 57.5 9 1.5 3.5 40 8.4 50.2 3.3 15.2 61.5 7.0 52.3 3.3 15.6 63.7 90-110 275-315 45 9.3 55.9 3.4 16.5 67.5 7.8 58.2 3.4 17.0 69.9 95-120 50 10.3 61.7 3.5 17.9 73.4 8.6 64.2 3.5 18.4 76.1 95-120 35 7.5 45.1 3.1 14.3 55.8 6.3 46.9 3.2 14.8 57.8 12 2.1 4.8 40 8.5 50.9 3.2 15.9 61.8 7.1 53.0 3.2 16.3 64.0 90-110 265-305 45 9.4 56.7 3.3 17.3 67.9 7.9 59.0 3.3 17.8 70.3 95-120 50 10.4 62.5 3.3 18.7 73.9 8.7 65.1 3.4 19.3 76.6 100-120 35 7.6 45.7 3.1 14.9 56.1 6.3 47.5 3.1 15.4 58.0 90-105 15 2.9 6.7 40 8.6 51.6 3.1 16.5 62.2 7.1 53.6 3.1 17.1 64.3 95-110 255-295 45 9.6 57.4 3.2 18.0 68.3 8.0 59.7 3.2 18.6 70.6 100-120 50 10.6 63.3 3.3 19.4 74.4 8.8 65.8 3.3 20.1 77.0 100-120 9 1.5 3.5 Operation Not Recommended 35 5.5 44.1 3.3 13.4 55.3 6.1 45.9 3.3 13.8 57.3 12 2.1 4.8 40 6.2 49.7 3.4 14.8 61.2 6.9 51.8 3.4 15.2 63.4 90-110 280-325 45 6.9 55.4 3.4 16.1 67.1 7.7 57.6 3.5 16.6 69.5 95-120 50 7.6 61.0 3.5 17.4 73.0 8.5 63.5 3.5 17.9 75.6 100-125 35 5.6 44.7 3.2 13.9 55.6 6.2 46.4 3.2 14.4 57.4 90-105 15 2.9 6.7 40 6.3 50.4 3.3 15.3 61.6 7.0 52.4 3.3 15.9 63.6 95-110 270-315 45 7.0 56.1 3.4 16.7 67.5 7.8 58.3 3.4 17.3 69.8 100-120 50 7.7 61.8 3.4 18.1 73.5 8.6 64.2 3.4 18.7 75.9 100-125 9 1.5 3.5 Operation Not Recommended 35 5.3 42.1 3.6 11.7 54.4 5.8 43.8 3.6 12.0 56.3 12 2.1 4.8 40 5.9 47.4 3.7 12.9 60.0 6.6 49.3 3.7 13.2 62.0 90-110 315-365 45 6.6 52.7 3.8 14.0 65.5 7.3 54.9 3.8 14.4 67.8 95-115 50 7.3 58.0 3.8 15.1 71.1 8.1 60.4 3.9 15.6 73.6 100-120 35 5.3 42.6 3.5 12.1 54.7 5.9 44.3 3.5 12.5 56.4 90-105 15 2.9 6.7 40 6.0 48.0 3.6 13.4 60.3 6.7 49.9 3.6 13.8 62.2 95-110 305-355 45 6.7 53.4 3.7 14.6 65.9 7.4 55.5 3.7 15.1 68.1 100-120 50 7.3 58.8 3.7 15.7 71.6 8.1 61.1 3.8 16.2 73.9 105-125 9 1.5 3.5 12 2.1 4.8 Operation Not Recommended 35 6.8 40.6 3.8 10.6 53.7 5.6 42.2 3.8 11.0 55.3 90-105 15 2.9 6.7 40 7.6 45.7 3.9 11.7 59.0 6.3 47.4 3.9 12.1 60.8 95-110 340-390 45 8.5 50.7 4.0 12.7 64.3 7.0 52.7 4.0 13.2 66.3 105-115 50 9.3 55.8 4.1 13.7 69.6 7.7 57.9 4.1 14.2 71.9 110-130 9 1.5 3.5 12 2.1 4.8 Operation Not Recommended 35 6.4 38.6 4.1 9.3 52.7 5.3 40.1 4.1 9.7 54.2 95-110 15 2.9 6.7 40 7.2 43.3 4.2 10.3 57.7 6.0 45.0 4.2 10.6 59.4 100-115 370-430 45 8.0 48.0 4.3 11.2 62.7 6.7 49.9 4.3 11.5 64.6 105-125 50 8.8 52.7 4.4 12.0 67.7 7.3 54.8 4.4 12.4 69.8 110-130 Operation at 40 EWT in cooling for long periods of time is not recommended, this is an extreme operating condition. Pressure: Suction +/- 5 psig & Discharge P +/- 10 psig. Pressure Drops with pure water. 23
RGS-W072 HEATING PERFORMANCE DATA EWT F Hydronic Flow 15 GPM GROUND HYD 3.2 PSIG dp, 7.4 FT dp LWT F HE GPM dp psig dp ft dt F EER 25 18 3.7 8.5 30 18 3.7 8.5 35 18 3.7 8.5 40 45 50 55 60 70 15 3.2 7.4 18 3.7 8.5 12 2.8 6.5 15 3.2 7.4 18 3.7 8.5 12 2.8 6.5 15 3.2 7.4 18 3.7 8.5 12 2.8 6.5 15 3.2 7.4 18 3.7 8.5 12 2.8 6.5 15 3.2 7.4 24 Hydronic Flow 18 GPM 3.7 PSIG dp, 8.5 FT dp HE dt F EER Refrigerant Pressure Suction Pressure Head Pressure 115 5.6 58.6 6.7 2.5 26.3 4.7 58.8 6.6 2.6 26.9 390-420 100 5.8 60.2 5.8 3.1 30.2 4.8 60.4 5.5 3.1 30.8 330-355 65-80 85 6.0 61.7 4.7 3.8 34.3 5.0 61.9 4.6 3.9 34.7 268-295 70 6.1 63.2 3.6 5.0 38.2 5.1 63.5 3.6 5.2 38.6 210-235 115 6.1 63.5 6.7 2.7 29.9 5.1 63.7 6.6 2.8 30.6 390-425 100 6.3 65.3 5.8 3.3 34.0 5.2 65.5 5.7 3.4 34.6 335-360 70-100 85 6.5 67.0 4.7 4.1 38.1 5.4 67.3 4.6 4.2 38.6 270-305 70 6.6 68.8 3.7 5.4 42.2 5.6 69.0 3.6 5.6 42.7 210-235 115 6.6 68.3 6.9 2.9 33.6 5.5 68.7 6.6 3.0 34.2 390-430 100 6.8 70.4 5.8 3.5 37.8 5.6 70.6 5.7 3.6 38.4 335-365 70-100 85 6.9 72.3 4.8 4.4 42.1 5.8 72.6 4.7 4.5 42.6 270-310 70 7.2 74.3 3.8 5.8 46.3 6.0 74.7 3.7 5.9 46.8 210-240 115 6.9 71.5 6.7 3.1 36.1 5.8 71.8 6.6 3.2 36.7 390-430 100 7.1 73.6 5.8 3.7 40.3 6.0 74.0 5.7 3.8 41.0 330-370 70-100 85 7.3 75.8 4.8 4.6 44.7 6.1 76.1 4.7 4.7 45.3 270-310 70 7.5 78.1 3.8 6.0 49.0 6.3 78.4 3.7 6.2 49.5 200-250 115 7.0 73.2 6.9 3.1 37.2 5.9 73.5 6.6 3.2 37.8 395-430 100 7.3 75.5 5.9 3.7 41.6 6.0 75.8 5.7 3.8 42.2 335-370 75-100 85 7.5 77.7 4.8 4.6 45.9 6.3 77.9 4.7 4.8 46.4 275-310 70 7.7 79.9 3.8 6.1 50.3 6.5 80.2 3.7 6.3 50.8 205-250 115 7.1 74.0 6.7 3.2 38.0 6.0 74.2 6.5 3.3 38.8 390-430 100 7.4 76.2 5.8 3.8 42.4 6.1 76.6 5.5 4.0 43.1 330-370 65-95 85 7.6 78.5 4.8 4.7 46.8 6.3 78.8 4.7 4.9 47.4 270-310 70 7.8 80.9 3.8 6.2 51.2 6.5 81.2 3.7 6.4 51.7 200-250 115 7.4 76.2 6.9 3.3 39.6 6.2 77.4 6.6 3.4 40.9 395-430 100 7.6 78.6 5.8 3.9 44.0 6.4 79.7 5.7 4.1 45.3 335-370 70-100 85 7.8 81.0 4.8 4.8 48.5 6.6 82.1 4.7 5.0 49.7 275-310 70 8.0 83.4 3.8 6.3 53.0 6.8 84.6 3.7 6.6 54.1 205-250 115 7.5 78.2 6.9 3.3 40.8 6.3 78.4 6.7 3.4 41.5 400-430 100 7.8 80.5 5.9 4.0 45.3 6.5 80.9 5.8 4.1 45.9 340-370 75-100 85 8.0 83.0 4.9 4.9 49.9 6.7 83.4 4.8 5.0 50.4 280-310 70 8.3 85.4 3.9 6.4 54.3 6.9 85.7 3.8 6.6 54.9 210-250 115 7.7 74.0 6.6 3.1 44.7 6.4 74.3 6.4 3.2 45.5 395-430 100 8.0 76.4 5.7 3.8 49.5 6.7 76.7 5.6 3.9 50.3 335-370 75-100 85 8.2 78.8 4.7 4.7 54.4 6.8 79.1 4.6 4.8 55.1 270-310 70 8.4 81.1 3.7 6.0 59.2 7.1 81.4 3.6 6.2 59.9 200-250 115 8.0 76.4 6.7 3.1 46.5 6.7 77.4 6.5 3.3 48.0 400-430 100 8.2 78.8 5.8 3.8 51.5 6.9 79.9 5.6 4.0 52.9 340-370 80-105 85 8.5 81.2 4.8 4.8 56.4 7.2 82.4 4.7 5.0 57.8 275-310 70 8.7 83.7 3.9 6.1 61.4 7.3 84.8 3.7 6.4 62.7 205-250 115 8.2 78.2 6.7 3.2 47.9 6.8 78.5 6.6 3.3 48.6 405-430 100 8.4 80.7 5.8 3.9 53.0 7.0 81.0 5.7 4.0 53.6 345-370 85 8.7 83.2 4.8 4.9 57.9 7.2 83.6 4.7 5.0 58.6 280-310 70 8.9 85.7 3.9 6.2 63.0 7.5 86.0 3.7 6.4 63.6 210-250 115 8.2 78.3 6.6 3.3 48.4 6.8 78.6 6.5 3.4 49.2 400-435 100 8.4 80.9 5.7 4.0 53.4 7.1 81.3 5.6 4.1 54.2 340-375 85-115 85 8.7 83.4 4.8 4.9 58.4 7.2 83.9 4.7 5.0 59.1 270-315 70 9.0 86.1 3.9 6.3 63.4 7.5 86.4 3.7 6.5 64.1 200-255 115 8.4 80.9 6.7 3.3 50.4 7.1 82.0 6.5 3.5 51.8 405-435 100 8.7 83.6 5.8 4.0 55.4 7.3 84.6 5.7 4.2 56.9 345-375 90-120 85 9.0 86.1 4.8 5.0 60.5 7.6 87.4 4.7 5.2 61.9 275-315 70 9.2 88.8 3.9 6.4 65.6 7.8 90.1 3.7 6.7 67.0 205-255 115 6.9 66.1 5.6 3.3 40.8 410-435 100 7.2 68.7 4.8 4.0 45.6 345-375 OPERATION NOT RECOMMEDED 95-125 85 7.4 71.5 4.0 5.0 50.5 280-315 70 7.7 74.2 3.1 6.7 55.3 210-255 115 8.6 82.7 6.6 3.4 52.1 7.2 83.0 6.5 3.6 53.0 405-435 100 8.9 85.5 5.8 4.2 57.2 7.4 85.8 5.6 4.3 58.0 345-375 95-130 85 9.2 88.2 4.8 5.1 62.4 7.7 88.7 4.7 5.2 63.1 280-315 70 9.5 91.0 4.0 6.5 67.5 7.9 91.4 3.9 6.8 68.1 210-255 115 7.5 86.5 6.6 3.7 55.7 410-435 100 7.7 89.4 5.7 4.4 60.9 350-375 110-135 85 8.0 92.3 4.8 5.4 66.1 285-315 70 8.2 95.2 3.9 7.0 71.4 215-255 18 3.7 8.5 115 OPERATION NOT RECOMMEDED OPERATION NOT RECOMMEDED 115 8.0 91.8 6.5 3.9 60.4 417-445 100 8.2 95.0 5.7 4.7 65.7 353-381 12 2.8 6.5 120-150 85 8.5 98.2 4.8 5.7 71.1 286-323 15 3.2 7.4 18 3.7 8.5 70 8.8 101.3 4.0 7.2 76.5 220-270 OPERATION NOT RECOMMEDED
RGS-W072 COOLING PERFORMANCE DATA EWT F 50 60 65 70 80 90 100 Hydronic Flow 15 GPM Hydronic Flow 18 GPM GROUND HYD 3.2 PSIG dp, 6.0 FT dp 3.78 PSIG dp, 9.5 FT dp Refrigerant Pressure GPM dp psig dp ft LWT F HR HR Suction Head dt F EER dt F EER Pressure Pressure 35 9.7 60.6 2.9 18.7 71.0 8.4 63.1 2.9 19.3 73.6 80-100 12 2.8 6.5 40 10.4 64.9 2.9 19.7 75.4 9.0 67.5 3.0 20.4 78.2 75-100 45 11.1 69.2 3.0 20.9 79.8 9.6 72.0 3.0 21.4 82.7 90-110 50 11.4 73.4 3.0 21.9 84.2 10.1 76.5 3.1 22.6 87.3 95-115 35 9.8 61.4 2.9 19.6 71.5 8.6 63.9 2.9 20.1 74.1 80-100 15 3.2 7.4 40 10.5 65.7 2.9 20.7 75.9 9.1 68.4 2.9 21.3 78.8 80-105 45 11.2 70.1 2.9 21.8 80.4 9.7 73.0 2.9 22.5 83.4 90-110 50 11.9 74.4 2.9 22.8 84.8 10.4 77.4 3.0 23.6 88.0 95-115 35 9.9 62.2 2.8 20.3 72.0 8.7 64.7 2.8 21.0 74.5 85-100 18 3.7 8.5 40 10.6 66.6 2.9 21.5 76.6 9.2 69.3 2.9 22.3 79.2 90-105 45 11.4 71.0 2.9 22.7 81.0 9.8 73.8 2.9 23.4 83.9 95-110 50 12.1 75.4 2.9 23.8 85.6 10.5 78.4 2.9 24.6 88.5 100-115 35 9.3 58.4 3.4 15.5 70.5 8.1 60.8 3.5 16.0 73.1 395-430 12 2.8 6.5 40 10.1 63.4 3.5 16.6 75.5 8.8 65.9 3.5 17.1 78.3 335-370 275-315 45 10.9 68.3 3.5 17.8 80.7 9.5 71.1 3.5 18.2 83.5 270-310 50 11.7 73.2 3.5 18.8 85.7 10.1 76.2 3.6 19.4 88.8 200-250 35 9.5 59.2 3.3 16.2 70.9 8.2 61.7 3.4 16.7 73.4 400-430 15 3.2 7.4 40 10.3 64.2 3.4 17.4 76.0 8.9 66.8 3.4 18.0 78.8 340-370 265-305 45 11.1 69.2 3.4 18.5 81.1 9.6 72.0 3.4 19.1 84.1 275-310 50 11.9 74.2 3.4 19.6 86.3 10.3 77.2 3.5 20.3 89.4 205-250 35 9.6 59.9 3.2 16.8 71.4 8.3 62.3 3.2 17.4 73.8 405-430 18 3.7 8.5 40 10.4 65.1 3.3 18.0 76.6 9.0 67.5 3.3 18.7 79.1 345-370 255-295 45 11.2 70.1 3.3 19.3 81.8 9.7 72.9 3.3 19.9 84.6 280-310 50 12.0 75.1 3.3 20.5 86.9 10.4 78.1 3.3 21.2 89.9 210-250 35 9.1 57.3 3.7 14.2 70.3 8.0 59.7 3.7 14.7 72.8 12 2.8 6.5 40 10.0 62.6 3.7 15.3 75.6 8.7 65.2 3.8 15.8 78.4 90-110 275-315 45 10.8 67.8 3.8 16.5 81.0 9.5 70.6 3.8 17.0 83.9 95-120 50 11.7 73.1 3.8 17.6 86.4 10.1 76.1 3.9 18.1 89.5 95-120 35 9.3 58.0 3.6 14.9 70.6 8.1 60.4 3.6 15.3 73.2 15 3.2 7.4 40 10.1 63.4 3.6 16.1 76.1 8.8 66.0 3.6 16.5 78.8 90-110 265-305 45 10.9 68.7 3.6 17.2 81.5 9.6 71.5 3.7 17.8 84.5 95-120 50 11.9 74.0 3.7 18.4 86.9 10.3 77.0 3.7 19.0 90.2 100-120 35 9.5 58.8 3.5 15.4 71.1 8.2 61.2 3.5 16.0 73.4 90-105 18 3.7 8.5 40 10.3 64.2 3.5 16.7 76.6 8.9 66.8 3.5 17.3 79.1 95-110 255-295 45 11.2 69.6 3.5 18.0 82.1 9.7 72.4 3.6 18.5 84.8 100-120 50 12.0 75.1 3.6 19.1 87.6 10.4 78.0 3.6 19.8 90.6 100-120 12 2.8 6.5 Operation Not Recommended 35 8.6 57.0 3.8 13.6 70.3 7.9 59.3 3.9 14.1 72.8 15 3.2 7.4 40 9.3 62.6 3.9 14.9 76.1 8.7 65.2 3.9 15.3 78.9 90-110 280-325 45 10.3 68.3 3.9 16.1 81.9 9.5 71.1 3.9 16.5 84.8 95-120 50 11.1 73.9 3.9 17.3 87.7 10.3 77.0 4.0 17.8 90.8 100-125 35 8.7 57.8 3.7 14.2 70.8 8.0 59.9 3.7 14.7 73.1 90-105 18 3.7 8.5 40 9.5 63.5 3.8 15.5 76.6 8.8 65.9 3.8 16.0 79.1 95-110 270-315 45 10.4 69.2 3.8 16.7 82.5 9.6 71.9 3.8 17.3 85.2 100-120 50 11.3 74.9 3.8 18.0 88.3 10.4 77.8 3.8 18.6 91.3 100-125 12 2.8 6.5 Operation Not Recommended 35 8.1 50.7 4.7 11.1 63.9 7.6 52.8 4.8 11.4 66.1 15 3.2 7.4 40 9.0 56.6 4.8 12.3 69.8 8.4 58.9 4.8 12.6 72.2 90-110 315-365 45 10.1 62.4 4.8 13.4 75.7 9.3 64.9 4.9 13.8 78.3 95-115 50 11.0 68.2 4.8 14.5 81.5 10.2 71.0 4.9 15.0 84.5 100-120 35 8.2 51.4 4.6 11.5 64.2 7.6 53.4 4.6 11.9 66.2 90-105 18 3.7 8.5 40 9.2 57.3 4.7 12.7 70.1 8.5 59.6 4.7 13.2 72.5 95-110 305-355 45 10.2 63.2 4.7 14.0 76.1 9.4 65.7 4.7 14.4 78.6 100-120 50 11.1 69.2 4.7 15.1 82.1 10.3 71.8 4.7 15.7 84.8 105-125 12 2.8 6.5 15 3.2 7.4 Operation Not Recommended 35 8.5 49.3 5.1 10.0 63.6 7.3 51.2 5.1 10.3 65.6 90-105 18 3.7 8.5 40 9.6 55.9 5.1 11.2 70.2 8.2 58.0 5.2 11.6 72.4 95-110 340-390 45 10.7 62.4 5.2 12.4 76.7 9.3 64.9 5.2 12.8 79.3 105-115 50 11.8 68.9 5.2 13.6 83.3 10.2 71.6 5.2 14.1 86.0 110-130 12 2.8 6.5 15 3.2 7.4 Operation Not Recommended 35 8.1 47.3 5.6 8.7 63.0 7.0 49.1 5.6 9.0 64.9 95-110 18 3.7 8.5 40 9.3 54.4 5.6 10.0 70.2 8.0 56.5 5.7 10.2 72.4 100-115 370-430 45 10.5 61.5 5.7 11.1 77.4 9.2 63.9 5.7 11.6 79.9 105-125 50 11.8 68.6 5.7 12.4 84.6 10.2 71.4 5.7 12.8 87.3 110-130 Operation at 40 EWT for long periods of time is not recommended, this is an extreme operating condition. Data subject to change. Pressure: Suction +/- 5 psig & Discharge P +/- 10 psig. Pressure Drops with pure water. 25
RGS-W084 HEATING PERFORMANCE DATA EWT F Hydronic Flow 16 GPM GROUND HYD.8 PSIG dp, 1.8 FT dp LWT F GPM dp psig dp ft dt F COP 25 30 35 40 45 50 55 60 70 16 0.8 1.8 12 0.5 1.2 16 0.8 1.8 12 0.5 1.2 16 0.8 1.8 12 0.5 1.2 16 0.8 1.8 12 0.5 1.2 16 0.8 1.8 HE 26 dt F Hydronic Flow 20 GPM 1.2 PSIG dp, 2.8 FT dp HE COP Refrigerant Pressure Suction Pressure Head Pressure 115 6.2 68.5 7.6 2.5 37.6 5.0 68.8 7.4 2.6 38.3 390-420 100 6.3 68.8 6.8 2.8 40.2 5.0 69.1 6.7 2.9 40.9 330-355 55-75 85 6.3 69.1 6.0 3.2 42.9 5.0 69.4 5.9 3.3 43.6 268-295 70 6.3 69.4 5.3 3.7 45.5 5.1 69.6 5.1 3.8 46.2 210-235 115 6.7 73.5 7.7 2.7 41.8 5.4 73.8 7.5 2.8 42.6 390-425 100 6.7 73.9 6.9 3.0 44.6 5.4 74.2 6.7 3.1 45.4 335-360 65-85 85 6.8 74.3 6.1 3.4 47.5 5.4 74.6 5.9 3.5 48.2 270-305 70 6.8 74.7 5.2 4.0 50.3 5.5 75.0 5.1 4.1 51.0 210-235 115 7.1 78.5 7.7 2.8 46.0 5.7 78.8 7.5 2.9 46.9 390-430 100 7.2 79.0 6.9 3.2 49.1 5.8 79.3 6.7 3.3 49.8 335-365 70-90 85 7.2 79.5 6.1 3.7 52.1 5.8 79.9 5.9 3.8 52.8 270-310 70 7.3 80.1 5.2 4.3 55.1 5.9 80.4 5.1 4.4 55.8 210-240 115 7.4 81.5 7.7 3.0 48.8 6.0 81.8 7.5 3.1 49.7 390-430 100 7.5 82.1 6.9 3.4 52.0 6.0 82.5 6.7 3.5 52.9 330-370 70-95 85 7.5 82.8 6.0 3.9 55.1 6.1 83.1 5.9 4.0 56.0 270-310 70 7.6 83.5 5.2 4.5 58.3 6.1 83.8 5.0 4.7 59.1 200-250 115 7.6 83.4 7.8 3.0 50.3 6.1 83.7 7.6 3.1 51.1 395-430 100 7.6 84.1 6.9 3.4 53.5 6.1 84.4 6.8 3.5 54.3 335-370 75-100 85 7.7 84.8 6.1 3.9 56.7 6.2 85.1 5.9 4.0 57.5 275-310 70 7.8 85.5 5.2 4.6 60.0 6.2 85.8 5.1 4.7 60.6 205-250 115 7.6 83.6 7.7 3.1 50.8 6.1 84.0 7.5 3.2 51.8 390-430 100 7.7 84.4 6.8 3.5 54.2 6.2 84.8 6.6 3.6 55.1 330-370 65-95 85 7.7 85.2 6.0 4.0 57.5 6.2 85.5 5.8 4.1 58.3 270-310 70 7.8 86.0 5.1 4.7 60.8 6.3 86.3 5.0 4.9 61.6 200-250 115 7.9 86.3 7.8 3.1 52.9 6.4 87.5 7.5 3.2 54.6 395-430 100 7.9 87.1 6.9 3.5 56.3 6.4 88.3 6.7 3.7 57.9 335-370 70-100 85 8.0 87.9 6.0 4.1 59.7 6.5 89.1 5.9 4.3 61.2 275-310 70 8.1 88.7 5.2 4.8 63.0 6.5 89.9 5.0 5.0 64.6 205-250 115 8.0 88.4 7.8 3.2 54.5 6.5 88.7 7.7 3.2 55.4 400-430 100 8.1 89.2 7.0 3.6 57.9 6.5 89.5 6.8 3.7 58.7 340-370 75-100 85 8.2 90.0 6.1 4.1 61.3 6.6 90.4 5.9 4.3 62.1 280-310 70 8.3 90.8 5.2 4.9 64.8 6.6 91.2 5.1 5.0 65.5 210-250 115 8.4 83.1 7.7 3.4 53.9 6.7 83.4 7.5 3.5 54.9 395-430 100 8.5 83.9 6.8 3.9 57.3 6.8 84.3 6.6 4.0 58.2 335-370 75-100 85 8.6 84.7 5.9 4.5 60.8 6.9 85.1 5.8 4.6 61.6 270-310 70 8.7 85.6 5.1 5.3 64.2 7.0 86.0 4.9 5.5 65.0 200-250 115 8.7 85.7 7.8 3.5 56.1 7.0 86.9 7.6 3.6 57.8 400-430 100 8.8 86.6 6.9 3.9 59.6 7.1 87.8 6.7 4.1 61.2 340-370 80-105 85 8.8 87.4 6.0 4.6 63.1 7.2 88.7 5.8 4.8 64.7 275-310 70 8.9 88.3 5.1 5.4 66.6 7.2 89.5 5.0 5.6 68.1 205-250 115 8.9 87.8 7.9 3.5 57.7 7.1 88.1 7.7 3.6 58.6 405-430 100 9.0 88.6 7.0 4.0 61.3 7.2 89.0 6.8 4.1 62.1 345-370 85 9.1 89.5 6.1 4.6 64.8 7.3 89.9 5.9 4.8 65.6 280-310 70 9.1 90.4 5.2 5.5 68.4 7.3 90.8 5.1 5.6 69.1 210-250 115 8.8 87.5 7.7 3.5 57.8 7.1 87.8 7.5 3.7 58.8 400-435 100 8.9 88.4 6.8 4.0 61.5 7.2 88.8 6.7 4.2 62.4 340-375 85-115 85 9.0 89.4 5.9 4.7 65.1 7.3 89.8 5.8 4.9 65.9 270-315 70 9.1 90.4 5.0 5.6 68.7 7.3 90.7 4.9 5.8 69.5 200-255 115 9.1 90.3 7.8 3.6 60.1 7.4 91.5 7.6 3.8 61.9 405-435 100 9.2 91.2 6.9 4.1 63.8 7.5 92.5 6.7 4.3 65.6 345-375 90-120 85 9.3 92.2 6.0 4.8 67.5 7.6 93.5 5.9 5.0 69.2 275-315 70 9.4 93.2 5.1 5.7 71.2 7.6 94.5 5.0 6.0 72.8 205-255 115 7.5 92.8 7.7 3.8 62.8 410-435 100 7.6 93.8 6.8 4.3 66.5 345-375 OPERATION NOT RECOMMENDED 95-125 85 7.7 94.8 5.9 5.0 70.1 280-315 70 7.8 95.8 5.0 6.0 73.8 210-255 115 9.3 91.9 7.8 3.7 61.8 7.5 92.3 7.6 3.8 62.8 405-435 100 9.4 93.0 6.9 4.2 65.6 7.6 93.4 6.7 4.4 66.5 345-375 95-130 85 9.5 94.0 6.0 4.9 69.4 7.6 94.4 5.8 5.1 70.2 280-315 70 9.6 95.1 5.0 5.9 73.2 7.7 95.5 4.9 6.1 74.0 210-255 115 7.8 96.1 7.7 3.9 66.1 410-435 100 7.9 97.3 6.8 4.5 69.9 350-375 110-135 85 8.0 98.4 5.9 5.3 73.7 285-315 70 8.1 99.5 5.0 6.3 77.5 215-255 115 OPERATION NOT RECOMMENDED OPERATION NOT RECOMMENDED 115 8.2 101.1 7.7 4.1 70.7 417-445 100 8.3 102.5 6.7 4.8 74.8 353-381 12 0.5 1.2 120-150 85 8.4 103.8 5.8 5.6 78.9 286-323 16 0.8 1.8 70 8.5 105.1 4.9 6.8 82.9 220-270 OPERATION NOT RECOMMENDED
RGS-W084 COOLING PERFORMANCE DATA Hydronic Flow 16 GPM GROUND HYD.8 PSIG dp, 1.8 FT dp LWT F EWT F GPM dp psig dp ft dt F EER 50 60 65 70 80 90 100 12 0.5 1.2 16 0.8 1.8 12 0.5 1.2 16 0.8 1.8 12 0.5 1.2 16 0.8 1.8 HR dt F Hydronic Flow 20 GPM 1.2 PSIG dp, 2.8 FT dp HR EER Refrigerant Pressure Suction Pressure Head Pressure 35 11.1 82.0 4.4 21.6 93.5 9.2 85.3 4.5 22.3 96.9 80-100 40 11.2 82.9 4.5 21.4 94.7 9.3 86.3 4.6 22.1 98.2 220-260 45 11.3 83.8 4.6 21.2 96.0 9.4 87.3 4.7 21.8 99.4 90-110 50 11.5 84.8 4.7 21.0 97.2 9.5 88.3 4.8 21.6 100.7 95-115 35 11.2 83.1 4.3 22.6 94.2 9.4 86.5 4.3 23.3 97.6 80-100 40 11.4 84.0 4.4 22.4 95.4 9.5 87.5 4.4 23.1 98.9 210-250 45 11.5 85.0 4.5 22.2 96.6 9.6 88.5 4.5 22.9 100.1 90-110 50 11.6 85.9 4.6 22.0 97.8 9.7 89.4 4.6 22.6 101.4 95-115 35 11.4 84.2 4.2 23.5 94.9 9.5 87.4 4.2 24.3 98.1 85-100 40 11.5 85.1 4.3 23.3 96.1 9.6 88.5 4.3 24.1 99.4 90-105 200-240 45 11.6 86.1 4.4 23.1 97.3 9.7 89.5 4.4 23.9 100.7 95-110 50 11.8 87.1 4.5 22.8 98.6 9.8 90.5 4.5 23.6 101.9 100-115 35 10.7 79.2 4.9 18.8 92.4 8.9 82.5 5.0 19.4 95.7 395-430 40 10.9 80.5 5.0 18.7 94.0 9.1 83.8 5.1 19.3 97.4 335-370 75-100 45 11.1 81.8 5.2 18.6 95.6 9.2 85.2 5.2 19.2 99.0 270-310 50 11.2 83.1 5.3 18.5 97.2 9.4 86.5 5.3 19.0 100.7 200-250 35 10.9 80.3 4.8 19.7 92.9 9.0 83.6 4.8 20.3 96.3 400-430 40 11.0 81.6 4.9 19.6 94.6 9.2 84.9 4.9 20.2 98.0 340-370 80-105 45 11.2 82.9 5.0 19.5 96.2 9.3 86.3 5.0 20.0 99.6 275-310 50 11.4 84.2 5.1 19.3 97.8 9.5 87.7 5.2 19.9 101.3 205-250 35 11.0 81.3 4.7 20.5 93.6 9.1 84.5 4.7 21.2 96.7 405-430 40 11.2 82.7 4.8 20.3 95.2 9.3 85.9 4.8 21.1 98.4 345-370 45 11.4 84.0 4.9 20.2 96.9 9.4 87.3 4.9 20.9 100.1 280-310 50 11.5 85.3 5.0 20.1 98.5 9.6 88.7 5.0 20.8 101.8 210-250 35 10.5 77.8 5.2 17.6 91.8 8.8 81.0 5.2 18.2 95.1 40 10.7 79.3 5.3 17.6 93.6 8.9 82.6 5.4 18.1 97.0 90-110 275-315 45 10.9 80.8 5.4 17.5 95.5 9.1 84.1 5.5 18.0 98.8 95-120 50 11.1 82.3 5.5 17.4 97.3 9.3 85.7 5.6 17.9 100.7 95-120 35 10.7 78.9 5.0 18.5 92.3 8.9 82.1 5.1 19.0 95.6 40 10.9 80.4 5.1 18.4 94.1 9.1 83.7 5.2 18.9 97.5 90-110 265-305 45 11.1 81.9 5.3 18.3 96.0 9.2 85.2 5.3 18.8 99.4 95-120 50 11.3 83.4 5.4 18.2 97.8 9.4 86.8 5.4 18.8 101.3 100-120 35 10.8 79.9 4.9 19.2 92.9 9.0 83.0 4.9 19.8 96.0 90-105 40 11.0 81.4 5.0 19.1 94.8 9.2 84.6 5.0 19.8 97.9 95-110 255-295 45 11.2 83.0 5.1 19.0 96.6 9.3 86.2 5.1 19.7 99.8 100-120 50 11.4 84.5 5.2 18.9 98.5 9.5 87.8 5.3 19.6 101.7 100-120 12 0.5 1.2 OPERATION NOT RECOMMENDED 35 10.5 76.1 4.6 16.8 89.9 8.7 79.2 4.6 17.3 93.1 40 10.7 77.7 4.7 16.8 91.9 8.9 80.9 4.7 17.3 95.2 90-110 16 0.8 1.8 280-325 45 10.9 79.4 4.8 16.7 93.9 9.1 82.7 4.8 17.2 97.3 95-120 50 11.2 81.1 4.9 16.7 95.9 9.3 84.4 4.9 17.2 99.3 100-125 35 10.6 77.1 4.4 17.5 90.5 8.8 80.1 4.5 18.1 93.5 90-105 40 10.8 78.8 4.5 17.4 92.5 9.0 81.8 4.6 18.0 95.6 95-110 270-315 45 11.1 80.4 4.7 17.4 94.5 9.2 83.6 4.7 18.0 97.6 100-120 50 11.3 82.1 4.8 17.4 96.5 9.4 85.3 4.8 18.0 99.7 100-125 12 0.5 1.2 OPERATION NOT RECOMMENDED 35 10.1 73.3 5.0 14.9 88.7 8.4 76.3 5.0 15.3 91.8 40 10.4 75.4 5.1 14.9 91.1 8.6 78.4 5.1 15.4 94.3 90-110 16 0.8 1.8 315-365 45 10.7 77.4 5.2 14.9 93.5 8.9 80.6 5.3 15.4 96.8 95-115 12 0.5 1.2 16 0.8 1.8 12 0.5 1.2 16 0.8 1.8 50 10.9 79.4 5.3 15.0 95.9 9.1 82.7 5.4 15.4 99.3 100-120 35 10.2 74.3 4.8 15.5 89.2 8.5 77.2 4.9 16.0 92.1 90-105 40 10.5 76.4 5.0 15.5 91.6 8.7 79.3 5.0 16.0 94.6 95-110 305-355 45 10.8 78.4 5.1 15.5 94.0 9.0 81.5 5.1 16.1 97.1 100-120 50 11.1 80.5 5.2 15.6 96.5 9.2 83.6 5.2 16.1 99.6 105-125 OPERATION NOT RECOMMENDED 35 9.8 71.5 5.2 13.8 87.9 8.2 74.3 5.3 14.2 90.7 90-105 40 10.2 73.9 5.4 13.9 90.7 8.5 76.8 5.4 14.3 93.6 95-110 340-390 45 10.5 76.4 5.5 13.9 93.6 8.7 79.3 5.5 14.4 96.5 105-115 50 10.8 78.8 5.7 14.0 96.4 9.0 81.9 5.7 14.5 99.5 110-130 OPERATION NOT RECOMMENDED 35 9.5 68.7 5.6 12.3 86.6 7.9 71.4 5.7 12.7 89.3 95-110 40 9.9 71.5 5.8 12.4 89.9 8.2 74.3 5.8 12.9 92.6 100-115 370-430 45 10.2 74.3 5.9 12.6 93.1 8.5 77.2 6.0 13.0 96.0 105-125 50 10.6 77.1 6.1 12.7 96.3 8.8 80.1 6.1 13.2 99.4 110-130 Operation at 40 EWT in cooling for long periods of time is not recommended, this is an extreme operating condition. Pressure: Suction +/- 5 psig & Discharge P +/- 10 psig. Pressure Drops with pure water. 27
RGS-W120 FULL LOAD HEATING PERFORMANCE DATA EWT F Hydronic Flow 24 GPM GROUND HYD 1.7 PSIG dp, 3.9 FT dp LWT F HE GPM dp psig dp ft dt F COP 25 30 2.6 6.0 30 30 2.6 6.0 35 30 2.6 6.0 40 45 50 55 60 70 30 2.6 6.0 30 2.6 6.0 30 2.6 6.0 30 2.6 6.0 28 Hydronic Flow 30 GPM 2.6 PSIG dp, 6.0 FT dp HE dt F COP 115 11.4 91.3 10.3 2.6 56.3 9.2 91.7 10.0 2.7 57.5 Refrigerant Pressure Suction Pressure Head Pressure 390-420 100 11.7 93.2 8.8 3.1 63.3 9.4 93.6 8.6 3.2 64.4 330-355 55-75 85 11.9 95.2 7.3 3.8 70.3 9.6 95.5 7.1 3.9 71.3 268-295 70 12.1 97.1 5.8 4.9 77.4 9.7 97.5 5.6 5.1 78.2 210-235 115 11.9 94.9 10.3 2.7 59.9 9.5 95.3 10.0 2.8 61.1 390-425 100 12.1 97.0 8.8 3.2 67.1 9.7 97.3 8.6 3.3 68.1 335-360 65-85 85 12.4 99.0 7.3 4.0 74.2 9.9 99.4 7.1 4.1 75.2 270-305 70 12.6 101.1 5.8 5.1 81.4 10.2 101.5 5.6 5.3 82.2 210-235 115 12.3 98.5 10.2 2.8 63.5 9.9 98.8 10.0 2.9 64.7 390-430 100 12.6 100.7 8.8 3.4 70.8 10.1 101.1 8.5 3.5 71.9 335-365 70-90 85 12.9 102.9 7.3 4.1 78.1 10.3 103.3 7.1 4.3 79.1 270-310 70 13.1 105.1 5.8 5.3 85.4 10.6 105.5 5.6 5.5 86.3 210-240 115 12.5 99.6 10.1 2.9 65.1 10.0 100.1 9.9 3.0 66.5 390-430 100 12.7 101.9 8.7 3.5 72.4 10.2 102.4 8.4 3.6 73.6 330-370 70-95 85 13.0 104.3 7.2 4.2 79.7 10.5 104.7 7.0 4.4 80.8 270-310 70 13.3 106.6 5.7 5.5 87.0 10.7 107.0 5.6 5.6 88.0 200-250 115 12.8 102.0 10.2 2.9 67.1 10.2 102.4 10.0 3.0 68.3 395-430 100 13.0 104.4 8.7 3.5 74.6 10.5 104.8 8.5 3.6 75.7 335-370 75-100 85 13.3 106.8 7.3 4.3 82.0 10.7 107.2 7.1 4.4 83.0 275-310 70 13.6 109.1 5.8 5.5 89.4 11.0 109.6 5.6 5.7 90.3 205-250 115 12.5 99.9 10.0 2.9 65.9 10.0 100.4 9.7 3.0 67.2 390-430 100 12.8 102.3 8.5 3.5 73.2 10.3 102.8 8.3 3.6 74.4 330-370 65-95 85 13.1 104.7 7.1 4.3 80.5 10.5 105.2 6.9 4.5 81.6 270-310 70 13.4 107.1 5.7 5.6 87.8 10.8 107.6 5.5 5.7 88.8 200-250 115 12.9 103.1 10.1 3.0 68.6 10.5 104.5 9.8 3.1 71.0 395-430 100 13.2 105.6 8.7 3.6 76.1 10.7 107.0 8.4 3.7 78.3 335-370 70-100 85 13.5 108.0 7.2 4.4 83.5 11.0 109.5 7.0 4.6 85.7 275-310 70 13.8 110.5 5.7 5.7 91.0 11.2 112.0 5.6 5.9 93.0 205-250 115 13.2 105.6 10.2 3.0 70.7 10.6 106.0 10.0 3.1 72.0 400-430 100 13.5 108.1 8.7 3.6 78.3 10.9 108.5 8.5 3.7 79.4 340-370 75-100 85 13.8 110.6 7.3 4.5 85.9 11.1 111.1 7.1 4.6 86.9 280-310 70 14.1 113.1 5.8 5.7 93.4 11.4 113.6 5.6 5.9 94.3 210-250 115 12.9 103.3 10.0 3.0 69.3 10.4 103.8 9.7 3.1 70.6 395-430 100 13.2 105.8 8.5 3.6 76.7 10.6 106.3 8.3 3.8 78.0 335-370 75-100 85 13.5 108.4 7.1 4.5 84.2 10.9 108.8 6.9 4.6 85.3 270-310 70 13.9 110.9 5.7 5.7 91.6 11.1 111.4 5.5 5.9 92.6 200-250 115 13.3 106.6 10.1 3.1 72.1 10.8 108.1 9.8 3.2 74.5 400-430 100 13.7 109.2 8.6 3.7 79.7 11.1 110.7 8.4 3.9 82.0 340-370 80-105 85 14.0 111.8 7.2 4.6 87.3 11.3 113.4 7.0 4.8 89.5 275-310 70 14.3 114.4 5.7 5.9 94.9 11.6 116.0 5.6 6.1 97.0 205-250 115 13.6 109.2 10.2 3.1 74.3 11.0 109.6 10.0 3.2 75.6 405-430 100 14.0 111.8 8.7 3.8 82.0 11.2 112.3 8.5 3.9 83.2 345-370 85 14.3 114.5 7.3 4.6 89.7 11.5 115.0 7.1 4.8 90.8 280-310 70 14.6 117.2 5.8 5.9 97.4 11.8 117.6 5.6 6.1 98.4 210-250 115 13.3 106.7 10.0 3.1 72.7 10.7 107.1 9.7 3.2 74.1 400-435 100 13.7 109.4 8.5 3.8 80.3 11.0 109.8 8.3 3.9 81.5 340-375 85-115 85 14.0 112.0 7.1 4.6 87.8 11.3 112.5 6.9 4.8 89.0 270-315 70 14.3 114.7 5.7 5.9 95.4 11.5 115.2 5.5 6.1 96.4 200-255 115 13.8 110.1 10.1 3.2 75.6 11.2 111.6 9.8 3.3 78.1 405-435 100 14.1 112.8 8.6 3.8 83.4 11.4 114.4 8.4 4.0 85.7 345-375 90-120 85 14.4 115.6 7.2 4.7 91.1 11.7 117.2 7.0 4.9 93.4 275-315 70 14.8 118.3 5.7 6.1 98.8 12.0 120.0 5.6 6.3 101.0 205-255 115 11.3 113.2 10.0 3.3 79.2 410-435 100 11.6 116.0 8.5 4.0 86.9 345-375 OPERATION NOT RECOMMENED 95-125 85 11.9 118.8 7.1 4.9 94.7 280-315 70 12.2 121.7 5.6 6.3 102.4 210-255 115 13.8 110.1 10.0 3.2 76.1 11.1 110.5 9.7 3.3 77.5 405-435 100 14.1 112.9 8.5 3.9 83.8 11.3 113.4 8.3 4.0 85.1 345-375 95-130 85 14.5 115.7 7.1 4.8 91.5 11.6 116.2 6.9 4.9 92.7 280-315 70 14.8 118.5 5.7 6.1 99.2 11.9 119.0 5.5 6.3 100.2 210-255 115 11.5 115.1 9.8 3.4 81.7 100 11.8 118.1 8.4 4.1 89.5 350-375 110-135 85 12.1 121.0 7.0 5.1 97.2 285-315 30 2.6 6.0 115 OPERATION NOT RECOMMENED OPERATION NOT RECOMMENED 115 11.7 117.3 9.7 3.6 84.4 30 2.6 6.0 410-435 70 12.4 124.0 5.6 6.5 105.0 215-255 417-445 100 12.0 120.4 8.3 4.3 92.2 353-381 120-150 85 12.4 123.5 6.9 5.3 100.0 286-323 70 12.7 126.6 5.5 6.8 107.9 220-270 OPERATION NOT RECOMMENED
RGS-W120 FULL LOAD COOLING PERFORMANCE DATA EWT F 50 60 65 70 80 90 100 Hydronic Flow 24 GPM GROUND HYD 1.7 PSIG dp, 3.9 FT dp LWT F HR GPM dp psig dp ft dt F EER 30 2.6 6.0 30 2.6 6.0 30 2.6 6.0 Hydronic Flow 30 GPM 2.6 PSIG dp, 6.0 FT dp HR dt F EER 35 12.2 97.8 5.7 17.3 117.1 10.2 101.8 5.7 17.8 121.3 Refrigerant Pressure Suction Pressure Head Pressure 40 12.8 102.6 5.7 18.1 121.9 10.7 106.8 5.7 18.6 126.3 220-260 45 13.4 107.4 5.7 18.9 126.8 11.2 111.8 5.7 19.5 131.4 90-110 50 14.0 112.2 5.7 19.7 131.6 11.7 116.8 5.8 20.3 136.4 95-115 35 12.4 99.1 5.5 18.1 117.8 10.3 103.2 5.5 18.6 122.1 40 13.0 103.9 5.5 18.9 122.7 10.8 108.2 5.6 19.5 127.2 210-250 45 13.6 108.8 5.5 19.8 127.6 11.3 113.3 5.6 20.4 132.2 90-110 50 14.2 113.7 5.5 20.6 132.5 11.8 118.3 5.6 21.2 137.3 95-115 35 12.6 100.4 5.3 18.8 118.7 10.4 104.3 5.4 19.4 122.6 40 13.2 105.3 5.4 19.7 123.6 10.9 109.4 5.4 20.3 127.8 90-105 200-240 45 13.8 110.2 5.4 20.5 128.6 11.5 114.6 5.4 21.3 132.9 95-110 50 14.4 115.2 5.4 21.4 133.5 12.0 119.7 5.4 22.2 138.1 100-115 35 11.6 92.8 6.3 14.7 114.3 9.7 96.6 6.4 15.1 118.3 40 12.3 98.5 6.4 15.3 120.4 10.3 102.5 6.5 15.8 124.6 335-370 75-100 45 13.0 104.2 6.5 16.0 126.4 10.8 108.5 6.6 16.5 130.9 270-310 80-100 80-100 85-100 395-430 50 13.7 109.9 6.6 16.6 132.5 11.4 114.4 6.7 17.1 137.2 200-250 35 11.8 94.0 6.1 15.4 114.9 9.8 97.9 6.2 15.8 119.0 400-430 40 12.5 99.8 6.2 16.0 121.0 10.4 103.9 6.3 16.5 125.3 340-370 80-105 45 13.2 105.6 6.3 16.7 127.1 11.0 109.9 6.4 17.2 131.7 275-310 50 13.9 111.4 6.4 17.3 133.3 11.6 115.9 6.5 17.9 138.1 205-250 35 11.9 95.2 6.0 16.0 115.6 9.9 99.0 6.0 16.5 119.4 405-430 40 12.6 101.1 6.1 16.7 121.8 10.5 105.1 6.1 17.3 125.8 345-370 45 13.4 107.0 6.2 17.4 128.0 11.1 111.2 6.2 18.0 132.3 280-310 50 14.1 112.8 6.3 18.0 134.2 11.7 117.2 6.3 18.7 138.7 210-250 35 11.3 90.2 6.6 13.6 112.9 9.4 94.0 6.7 14.0 116.9 40 12.1 96.4 6.8 14.2 119.6 10.0 100.4 6.9 14.6 123.8 90-110 275-315 45 12.8 102.6 6.9 14.8 126.3 10.7 106.8 7.0 15.2 130.7 95-120 50 13.6 108.8 7.1 15.3 133.0 11.3 113.2 7.2 15.8 137.7 95-120 35 11.4 91.5 6.4 14.2 113.4 9.5 95.2 6.5 14.6 117.4 40 12.2 97.7 6.6 14.8 120.2 10.2 101.7 6.7 15.3 124.4 90-110 265-305 45 13.0 104.0 6.7 15.4 126.9 10.8 108.2 6.8 15.9 131.4 95-120 50 13.8 110.2 6.9 16.0 133.7 11.5 114.7 6.9 16.5 138.4 100-120 35 11.6 92.7 6.3 14.8 114.1 9.6 96.3 6.3 15.3 117.8 40 12.4 99.0 6.4 15.4 120.9 10.3 102.9 6.4 16.0 124.9 95-110 255-295 45 13.2 105.3 6.6 16.1 127.7 10.9 109.5 6.6 16.6 131.9 100-120 50 14.0 111.7 6.7 16.7 134.5 11.6 116.0 6.7 17.2 139.0 100-120 OPERATION NOT RECOMMENED 35 11.1 88.9 6.8 13.2 112.0 9.3 92.6 6.8 13.6 115.8 30 2.6 6.0 40 12.0 95.6 6.9 13.8 119.3 10.0 99.6 7.0 14.2 123.5 90-110 280-325 45 12.8 102.3 7.1 14.3 126.7 10.7 106.5 7.2 14.8 131.1 95-120 50 13.6 109.1 7.3 14.9 134.1 11.4 113.5 7.4 15.3 138.8 100-125 35 11.3 90.1 6.6 13.7 112.6 9.4 93.6 6.6 14.2 116.2 40 12.1 96.9 6.8 14.3 120.0 10.1 100.7 6.8 14.8 123.9 95-110 270-315 45 13.0 103.7 7.0 14.9 127.4 10.8 107.8 7.0 15.4 131.6 100-120 50 13.8 110.5 7.1 15.5 134.9 11.5 114.8 7.2 16.0 139.3 100-125 OPERATION NOT RECOMMENED 35 10.5 83.8 7.4 11.3 109.0 8.7 87.3 7.5 11.7 112.7 30 2.6 6.0 30 2.6 6.0 30 2.6 6.0 40 11.4 91.5 7.7 11.9 117.6 9.5 95.2 7.7 12.3 121.7 90-110 315-365 45 12.4 99.1 8.0 12.5 126.3 10.3 103.2 8.0 12.8 130.6 95-115 50 13.3 106.8 8.2 13.0 134.9 11.1 111.1 8.3 13.4 139.5 100-120 35 10.6 84.9 7.2 11.8 109.5 8.8 88.3 7.2 12.2 112.9 40 11.6 92.7 7.5 12.4 118.2 9.6 96.3 7.5 12.8 121.9 95-110 305-355 45 12.6 100.4 7.8 13.0 126.9 10.4 104.4 7.8 13.4 130.9 100-120 50 13.5 108.2 8.0 13.5 135.6 11.2 112.4 8.1 13.9 139.9 105-125 OPERATION NOT RECOMMENED 35 10.0 79.8 7.8 10.2 106.5 8.3 82.9 7.9 10.6 109.7 40 11.1 88.5 8.2 10.8 116.4 9.2 91.9 8.2 11.2 120.0 95-110 340-390 45 12.1 97.2 8.6 11.4 126.3 10.1 101.0 8.6 11.8 130.2 105-115 50 13.2 105.8 8.9 11.9 136.3 11.0 110.0 9.0 12.3 140.5 110-130 OPERATION NOT RECOMMENED 35 9.3 74.6 8.4 8.8 103.4 7.8 77.5 8.5 9.2 106.4 40 10.5 84.3 8.9 9.5 114.6 8.8 87.6 8.9 9.8 118.0 100-115 370-430 45 11.7 93.9 9.3 10.0 125.8 9.8 97.6 9.4 10.4 129.6 105-125 50 12.9 103.5 9.8 10.6 137.0 10.8 107.6 9.8 10.9 141.1 110-130 90-105 90-105 90-105 90-105 95-110 Operation at 40 EWT in cooling for long periods of time is not recommended, this is an extreme operating condition. Pressure: Suction +/- 5 psig & Discharge P +/- 10 psig. Pressure Drops with pure water. 29
RGS-W120 PART LOAD HEATING PERFORMANCE DATA Hydronic Flow 24 GPM GROUND HYD LWT 1.7 PSIG dp, 3.9 FT dp F HE EWT F GPM dp psig dp ft dt F COP 25 30 2.6 6.0 30 30 2.6 6.0 35 30 2.6 6.0 40 45 50 55 60 70 30 2.6 6.0 30 2.6 6.0 30 2.6 6.0 30 2.6 6.0 30 Hydronic Flow 30 GPM 2.6 PSIG dp, 6.0 FT dp HE dt F COP 115 5.7 45.5 4.6 2.9 29.8 4.6 45.7 4.5 3.0 30.3 Refrigerant Pressure Suction Pressure Head Pressure 375-400 100 5.7 46.0 4.0 3.4 32.4 4.6 46.1 3.9 3.5 32.9 310-335 65-85 85 5.8 46.4 3.3 4.1 35.0 4.7 46.6 3.3 4.2 35.4 240-265 70 5.9 46.9 2.7 5.1 37.6 4.7 47.1 2.7 5.2 38.0 180-210 115 5.9 47.1 4.6 3.0 31.3 4.7 47.3 4.5 3.1 31.9 380-405 100 6.0 48.2 4.0 3.5 34.6 4.8 48.4 3.9 3.6 35.1 315-340 73-92 85 6.2 49.3 3.4 4.3 37.8 4.9 49.5 3.3 4.4 38.3 250-275 70 6.3 50.4 2.7 5.4 41.0 5.1 50.6 2.7 5.5 41.5 190-215 115 6.1 48.7 4.6 3.1 32.9 4.9 48.9 4.5 3.2 33.4 380-405 100 6.3 50.4 4.0 3.7 36.7 5.1 50.6 3.9 3.8 37.3 320-345 80-100 85 6.5 52.2 3.4 4.5 40.6 5.2 52.4 3.3 4.6 41.1 250-275 70 6.7 53.9 2.8 5.7 44.5 5.4 54.1 2.7 5.9 44.9 190-215 115 6.1 49.1 4.6 3.1 33.4 4.9 49.3 4.5 3.2 34.0 380-405 100 6.4 51.4 4.0 3.8 37.8 5.2 51.7 3.9 3.9 38.4 320-345 80-105 85 6.7 53.8 3.4 4.7 42.2 5.4 54.0 3.3 4.8 42.8 255-280 70 7.0 56.1 2.8 5.9 46.7 5.6 56.4 2.7 6.1 47.2 190-215 115 6.3 50.3 4.7 3.2 34.4 5.0 50.5 4.5 3.3 35.0 380-405 100 6.6 52.7 4.0 3.8 38.9 5.3 52.9 3.9 3.9 39.4 320-345 85 6.9 55.1 3.4 4.7 43.4 5.5 55.3 3.3 4.9 43.9 255-280 70 7.2 57.5 2.8 6.0 47.9 5.8 57.7 2.7 6.2 48.4 190-215 115 6.1 49.1 4.6 3.2 33.5 4.9 49.3 4.4 3.3 34.1 380-410 100 6.5 52.0 4.0 3.8 38.4 5.2 52.2 3.9 4.0 39.0 315-345 80-107 85 6.9 54.8 3.4 4.8 43.4 5.5 55.1 3.3 4.9 43.9 255-285 70 7.2 57.7 2.8 6.1 48.3 5.8 58.0 2.7 6.3 48.8 190-210 115 6.3 50.6 4.6 3.2 34.9 5.1 51.3 4.5 3.3 36.0 380-410 100 6.7 53.6 4.0 3.9 39.9 5.4 54.4 3.9 4.1 41.0 315-345 85-112 85 7.1 56.6 3.4 4.9 45.0 5.7 57.4 3.3 5.1 46.1 255-285 70 7.4 59.6 2.8 6.2 50.0 6.0 60.4 2.7 6.5 51.1 190-210 115 6.5 51.9 4.7 3.3 35.9 5.2 52.1 4.6 3.3 36.5 385-410 100 6.9 54.9 4.1 4.0 41.1 5.5 55.1 4.0 4.1 41.6 320-345 90-112 85 7.2 57.9 3.4 4.9 46.2 5.8 58.2 3.4 5.1 46.7 260-285 70 7.6 61.0 2.8 6.3 51.4 6.1 61.2 2.8 6.5 51.8 195-210 115 6.3 50.6 4.6 3.2 35.0 5.1 50.8 4.5 3.3 35.6 380-415 100 6.8 54.1 4.0 4.0 40.5 5.4 54.3 3.9 4.1 41.1 320-350 88-115 85 7.2 57.6 3.4 5.0 46.0 5.8 57.8 3.3 5.2 46.6 255-285 70 7.6 61.1 2.8 6.4 51.6 6.1 61.3 2.7 6.6 52.1 195-225 115 6.5 52.2 4.6 3.3 36.4 5.3 52.9 4.5 3.4 37.5 385-415 100 7.0 55.8 4.0 4.1 42.0 5.7 56.6 3.9 4.2 43.2 320-350 93-120 85 7.4 59.4 3.4 5.1 47.7 6.0 60.2 3.3 5.3 48.9 255-285 70 7.9 63.0 2.8 6.6 53.4 6.4 63.9 2.7 6.8 54.5 195-225 115 6.7 53.4 4.7 3.3 37.5 5.4 53.7 4.6 3.4 38.1 390-415 100 7.1 57.1 4.1 4.1 43.2 5.7 57.4 4.0 4.2 43.8 325-350 98-120 85 7.6 60.8 3.5 5.2 49.0 6.1 61.1 3.4 5.3 49.5 260-285 70 8.1 64.5 2.8 6.6 54.8 6.5 64.8 2.8 6.8 55.3 200-225 115 6.5 52.1 4.6 3.3 36.4 5.2 52.3 4.5 3.4 37.1 385-415 100 7.0 56.2 4.0 4.1 42.5 5.6 56.4 3.9 4.3 43.2 320-350 94-121 85 7.5 60.3 3.4 5.2 48.7 6.1 60.5 3.3 5.4 49.3 255-285 70 8.0 64.4 2.8 6.7 54.8 6.5 64.7 2.7 6.9 55.4 195-225 115 6.7 53.7 4.7 3.4 37.9 5.4 54.5 4.5 3.5 39.0 385-415 100 7.2 58.0 4.0 4.2 44.2 5.9 58.8 3.9 4.4 45.3 320-350 99-126 85 7.8 62.2 3.4 5.3 50.4 6.3 63.1 3.4 5.5 51.6 255-285 70 8.3 66.4 2.8 6.8 56.7 6.7 67.4 2.8 7.1 57.9 195-225 115 5.5 55.2 4.6 3.5 39.6 410-435 100 6.0 59.6 4.0 4.4 46.0 345-375 OPERATION NOT RECOMMENED 95-125 85 6.4 64.0 3.4 5.5 52.4 280-315 70 6.8 68.3 2.8 7.1 58.7 210-255 115 6.7 53.6 4.6 3.4 37.9 5.4 53.8 4.5 3.5 38.5 385-415 100 7.3 58.3 4.0 4.3 44.6 5.9 58.6 3.9 4.4 45.2 325-350 105-132 85 7.9 63.0 3.4 5.4 51.3 6.3 63.3 3.3 5.6 51.9 260-285 70 8.5 67.7 2.8 7.0 58.1 6.8 68.0 2.8 7.2 58.6 195-225 115 5.6 56.1 4.5 3.6 40.6 100 6.1 61.0 4.0 4.5 47.5 350-375 110-135 85 6.6 65.9 3.4 5.7 54.4 285-315 30 2.6 6.0 115 OPERATION NOT RECOMMENED OPERATION NOT RECOMMENED 115 5.7 56.8 4.5 3.7 41.4 30 2.6 6.0 410-435 70 7.1 70.9 2.8 7.4 61.3 215-255 395-415 100 6.3 62.8 3.9 4.7 49.4 330-350 123-146 85 6.9 68.8 3.4 6.0 57.3 270-290 70 7.5 74.7 2.8 7.8 65.2 205-225 OPERATION NOT RECOMMENED
RGS-W120 PART LOAD COOLING PERFORMANCE DATA Hydronic Flow 24 GPM GROUND HYD 1.7 PSIG dp, 3.9 FT dp LWT F HR EWT F GPM dp psig dp ft dt F EER 50 60 65 70 80 90 100 30 2.6 6.0 30 2.6 6.0 30 2.6 6.0 dt F Hydronic Flow 9 GPM 2.6 PSIG dp, 6.0 FT dp EER HR 35 5.9 47.3 2.6 18.5 56.0 4.9 49.2 2.6 19.0 58.0 Refrigerant Pressure Suction Pressure Head Pressure 100-115 40 6.6 53.0 2.5 21.2 61.5 5.5 55.1 2.5 21.8 63.8 110-125 190-220 45 7.3 58.7 2.4 24.0 67.0 6.1 61.1 2.5 24.8 69.5 120-135 50 8.0 64.4 2.4 27.0 72.5 6.7 67.0 2.4 27.8 75.2 130-145 35 6.0 47.9 2.5 19.3 56.4 5.0 49.9 2.5 19.9 58.4 40 6.7 53.7 2.4 22.2 61.9 5.6 55.9 2.4 22.8 64.2 105-125 185-215 45 7.4 59.5 2.4 25.1 67.5 6.2 61.9 2.4 25.9 70.1 118-135 50 8.2 65.2 2.3 28.3 73.1 6.8 67.9 2.3 29.1 75.9 125-145 35 6.1 48.5 2.4 20.1 56.8 5.0 50.4 2.4 20.8 58.7 40 6.8 54.4 2.4 23.0 62.4 5.7 56.5 2.4 23.9 64.6 105-115 180-210 45 7.5 60.3 2.3 26.1 68.1 6.3 62.6 2.3 27.0 70.5 115-130 50 8.3 66.1 2.3 29.4 73.8 6.9 68.7 2.3 30.4 76.4 125-140 35 5.7 45.4 2.9 15.8 55.2 4.7 47.3 2.9 16.3 57.1 40 6.4 50.8 2.8 17.8 60.6 5.3 52.9 2.9 18.4 62.7 110-125 215-255 45 7.0 56.3 2.8 19.8 65.9 5.9 58.6 2.9 20.5 68.3 120-135 97-115 95-105 100-115 50 7.7 61.7 2.8 21.9 71.3 6.4 64.2 2.8 22.5 73.9 130-145 35 5.8 46.0 2.8 16.6 55.5 4.8 47.9 2.8 17.1 57.5 40 6.4 51.5 2.8 18.7 60.9 5.4 53.6 2.8 19.2 63.1 107-120 210-250 45 7.1 57.0 2.7 20.8 66.4 5.9 59.4 2.8 21.4 68.8 118-135 50 7.8 62.5 2.7 22.9 71.8 6.5 65.1 2.8 23.6 74.5 125-145 35 5.8 46.6 2.7 17.2 55.9 4.8 48.4 2.7 17.8 57.7 40 6.5 52.2 2.7 19.4 61.4 5.4 54.2 2.7 20.1 63.5 107-117 205-245 45 7.2 57.8 2.7 21.6 66.9 6.0 60.0 2.7 22.3 69.2 118-128 50 7.9 63.3 2.7 23.8 72.4 6.6 65.8 2.7 24.6 74.9 125-140 35 5.6 44.5 3.0 14.7 54.8 4.6 46.3 3.0 15.2 56.7 40 6.2 49.8 3.0 16.4 60.1 5.2 51.8 3.1 17.0 62.2 112-130 240-270 45 6.9 55.0 3.0 18.2 65.4 5.7 57.3 3.1 18.7 67.8 123-140 97-115 95-105 100-120 50 7.5 60.3 3.0 19.9 70.7 6.3 62.8 3.1 20.5 73.3 130-145 35 5.6 45.1 2.9 15.4 55.0 4.7 46.9 3.0 15.9 57.0 40 6.3 50.4 2.9 17.2 60.4 5.2 52.5 3.0 17.7 62.6 110-125 235-265 45 7.0 55.8 2.9 19.0 65.8 5.8 58.1 3.0 19.6 68.2 120-135 50 7.6 61.1 2.9 20.8 71.2 6.4 63.7 3.0 21.4 73.8 125-145 35 5.7 45.7 2.9 16.0 55.4 4.7 47.5 2.9 16.6 57.2 40 6.4 51.1 2.9 17.9 60.8 5.3 53.1 2.9 18.5 62.9 107-117 230-260 45 7.1 56.5 2.9 19.7 66.3 5.9 58.7 2.9 20.4 68.5 118-128 50 7.7 62.0 2.9 21.6 71.7 6.4 64.4 2.9 22.4 74.2 125-140 OPERATION NOT RECOMMENED 30 2.6 6.0 35 5.5 44.1 3.1 14.4 54.6 4.6 45.9 3.1 14.8 56.5 40 6.2 49.3 3.1 15.9 59.9 5.1 51.4 3.1 16.4 62.1 108-120 250-285 45 6.8 54.6 3.1 17.5 65.2 5.7 56.8 3.2 18.0 67.6 120-135 95-115 95-108 100-115 50 7.5 59.8 3.2 19.0 70.5 6.2 62.2 3.2 19.5 73.1 130-145 35 5.6 44.7 3.0 14.9 54.9 4.6 46.5 3.0 15.4 56.7 40 6.2 50.0 3.0 16.5 60.3 5.2 51.9 3.0 17.1 62.5 108-118 245-280 45 6.9 55.3 3.0 18.1 65.7 5.7 57.4 3.1 18.8 68.3 119-129 50 7.6 60.6 3.1 19.7 71.1 6.3 62.9 3.1 20.4 74.0 130-140 OPERATION NOT RECOMMENED 30 2.6 6.0 30 2.6 6.0 30 2.6 6.0 35 5.3 42.2 3.4 12.5 53.7 4.4 44.0 3.4 12.9 55.6 40 5.9 47.2 3.4 13.7 58.9 4.9 49.1 3.5 14.1 61.0 110-125 280-282 45 6.5 52.1 3.5 14.9 64.1 5.4 54.2 3.5 15.3 66.3 120-135 98-110 100-115 50 7.1 57.0 3.6 16.0 69.2 5.9 59.4 3.6 16.4 71.7 130-145 35 5.3 42.8 3.3 13.0 54.0 4.4 44.5 3.3 13.5 55.7 100-110 40 6.0 47.8 3.4 14.3 59.2 5.0 49.7 3.4 14.8 61.1 110-120 245-280 45 6.6 52.8 3.4 15.4 64.5 5.5 54.9 3.4 16.0 66.6 120-130 50 7.2 57.8 3.5 16.6 69.7 6.0 60.1 3.5 17.2 72.0 130-140 OPERATION NOT RECOMMENED 35 5.1 40.9 3.6 11.4 53.1 4.2 42.5 3.6 11.8 54.7 100-110 40 5.7 45.6 3.7 12.4 58.2 4.7 47.4 3.7 12.8 60.0 110-120 310-350 45 6.3 50.3 3.8 13.3 63.2 5.2 52.3 3.8 13.7 65.3 120-130 50 6.9 55.0 3.9 14.1 68.3 5.7 57.2 3.9 14.6 70.5 130-140 OPERATION NOT RECOMMENED 35 4.9 39.0 3.9 10.1 52.2 4.0 40.5 3.9 10.4 53.7 100-111 40 5.4 43.4 4.0 10.8 57.1 4.5 45.1 4.0 11.2 58.8 111-121 340-385 45 6.0 47.8 4.2 11.5 62.0 5.0 49.7 4.2 11.9 64.0 122-132 50 6.5 52.3 4.3 12.1 67.0 5.4 54.3 4.3 12.6 69.1 132-142 Operation at 40 EWT in cooling for long periods of time is not recommended, this is an extreme operating condition. Pressure: Suction +/- 5 psig & Discharge P +/- 10 psig. Pressure Drops with pure water. 31
PHYSICAL DIMENSIONS Dimension RGS- W036 RGS-W048 RGS-W060 RGS-W072 RGS- W084 RGS- W120 A 23.4 23.4 23.4 27.0 27.0 B 29.2 29.2 29.2 27.5 27.5 C 25.8 25.8 25.8 26.1 26.1 D 6.1 6.1 6.1 - - E 3.2 3.2 3.2 - - F 18.1 18.1 18.1 - - G 2.8 2.8 2.8 - - H 18.3 18.3 18.3 - - J 6.5 6.5 6.5 - - K 4.4 4.4 4.4 - - L 2.0 2.0 2.0 - - M 26.5 26.5 26.5 - - N 20.8 20.8 20.8 - - P 25.1 25.1 25.1 - - All measurements in inches RGS-W120 32
ELECTRICAL DATA Model Voltage Phase Frequency (Hz) Compressor Hydronic Pump RLA LRA HP FLA LRA Without FlowCenter Total FLA Min. Amp. Max Fuse 208/230-1, 60 17.9 112 1/3 3.6 -- 21.5 26.0 40 RGS-W036 208/230-3, 60 13.2 88 1/3 3.6 -- 16.8 20.1 30 460-3, 60 6.0 440 1/3 1.1 -- 7.1 8.6 10 200/220-3, 50 13.2 95 1/3 3.6 -- 16.8 20.1 30 208/230-1, 60 25.0 134 1/3 3.6 -- 28.6 34.9 55 208/230-3, 60 15.9 110 1/3 3.6 -- 19.5 23.5 35 RGS-W048 460-3, 60 7.1 52 1/3 1.1 -- 8.2 10.0 15 380-3, 60 7.9 66 1/3 1.1 -- 9.0 11.0 15 200/220-3, 50 15.0 110 1/3 3.6 -- 18.6 22.4 35 208/230-1, 60 28.3 178 1/3 3.6 -- 31.9 39.0 65 208/230-3, 60 19.2 136 1/3 3.6 -- 22.8 27.6 45 RGS-W060 460-3, 60 8.7 66 1/3 1.1 -- 9.8 12.0 20 380-3, 60 10.7 83 1/3 1.1 -- 11.8 14.5 25 200/220-3, 50 18.8 146 1/3 3.6 -- 22.4 27.1 45 208/230-1, 60 32.1 148 1/3 3.6 -- 35.7 43.7 75 208/230-3, 60 23.2 164 1/3 3.6 -- 26.8 32.6 55 RGS-W072 460-3, 60 11.2 75 1/3 1.1 -- 12.3 15.1 25 380-3, 60 12.2 73 1/3 1.1 -- 13.3 16.4 25 200/220-3, 50 21.7 179 1/3 3.6 -- 25.3 30.7 50 208/230-1, 60 32.1 185 1/3 3.6 -- 35.7 43.7 75 208/230-3, 60 25.0 164 1/3 3.6 -- 28.6 34.9 55 RGS-W084 460-3, 60 12.2 100 1/3 1.1 -- 13.3 16.4 25 380-3, 60 13.9 94 1/3 1.1 -- 15.0 18.5 30 200/220-3, 50 25.0 179 1/3 3.6 -- 28.6 34.9 55 208/230-1, 60 30.1x2 158x2 1/3 3.6 -- 63.8 78.9 105 208/230-3, 60 20.5x2 155x2 1/3 3.6 -- 44.6 54.9 70 RGS-W120 460-3, 60 9.6x2 75x2 1/3 1.1 -- 20.3 25.1 30 380-3, 60 9.6x2 67x2 1/3 1.1 -- 20.3 25.1 30 200/220-3, 50 20.5x2 170x2 1/3 3.6 -- 44.6 54.9 70 33
WATER COIL PRESSURE DROP RATINGS Pressure drops (PSI) with pure water. RGS-W036 GPM Water Flow 5 6 7 8 9 10 11 Source Water Pressure Drop (Copper) 1.2 1.6 2.0 2.6 3.2 3.8 4.5 Source Water Pressure Drop (CuNi) 2.8 4.4 6.1 7.7 9.4 12.5 12.7 Load Water Pressure Drop 1.2 1.6 2.0 2.6 3.2 3.8 4.5 RGS-W048 GPM Water Flow 8 9 10 11 12 13 14 Source Water Pressure Drop (Copper) 1.8 2.0 2.2 2.4 2.6 2.8 3.0 Source Water Pressure Drop (CuNi) 7.7 4.4 12.5 12.7 14.0 16.0 17.5 Load Water Pressure Drop 1.8 2.0 2.2 2.4 2.6 2.8 3.0 RGS-W060 GPM Water Flow 9 10 11 12 13 14 15 16 17 Source Water Pressure Drop (Copper) 1.5 1.7 1.9 2.1 2.4 2.6 2.9 3.2 3.5 Source Water Pressure Drop (CuNi) 9.4 12.5 12.7 14.0 16.0 17.5 19.3 20.9 22.6 Load Water Pressure Drop 1.5 1.7 1.9 2.1 2.4 2.6 2.9 3.2 3.5 RGS-W072 GPM Water Flow 14 15 16 17 18 19 20 22 Source Water Pressure Drop (Copper) 3.0 3.2 3.4 3.5 3.7 3.9 4.0 4.4 Source Water Pressure Drop (CuNi) 9.0 11.3 12.0 12.6 13.0 13.9 14.6 18.0 Load Water Pressure Drop 3.0 3.2 3.4 3.5 3.7 3.9 4.0 4.4 34
RGS-W084 GPM Water Flow 12 13 14 15 16 17 18 20 22 24 Source Water Pressure Drop (Copper) 0.5 0.6 0.6 0.7 0.8 0.9 1.0 1.2 1.5 1.7 Source Water Pressure Drop (CuNi) 8.5 10.0 9.0 11.3 12.0 12.6 13.0 13.9 14.6 18.0 Load Water Pressure Drop - - 3.0 3.2 3.4 3.5 3.7 3.9 4.0 4.4 RGS-W120 GPM Water Flow 16 18 20 22 24 26 28 30 32 34 Source Water Pressure Drop (Copper) 0.8 1.0 1.2 1.5 1.7 2.0 2.3 2.6 2.9 3.3 Source Water Pressure Drop (CuNi) 12.0 13.0 13.9 14.6 18.0 18.5 19.8 21.1 22.4 23.7 14 15 16 17 18 19 20 22 - - Load Water Pressure Drop 3.0 3.2 3.4 3.5 3.7 3.9 4.0 4.4 - - DESUPERHEATER WATER HEATING DATA Model RGS-W036-AXS - RGS-W120-AXS Source EWT ( F) Desuperheater GPM Desuperheater EWT ( F) Desuperheater LWT ( F) Heat Output (BTU/hr) 32 F 3.0 100 F 103 F 4,100 90 F 3.0 100 F 108 F 11,000 35
X. FIGURES Figure 1 GeoSource Hydronic Heat Pump Supplying Radiant Floor Heating, Fan Coil Cooling, and Water Heating Note Always use copper pipe on the hydronic side. Note Conceptual drawing only. Check local codes and use proper plumbing procedures. Important Expect a 10 F temperature differential between supply tank and receiving tank when transferring heat with an intermediate heat exchanger. 36
Figure 2 Ground Loop Water Plumbing Figure 3 Ground Water Plumbing 37
Figure 4 GeoSource Hydronic Heat Pump Radiant Floor Heating and Fan Coil Cooling Note Always use copper pipe on the hydronic side. Note Conceptual drawing only. Check local codes and use proper plumbing procedures. 38
Figure 5 GeoSource Hydronic Heat Pump Multizone System Note Always use copper pipe on the hydronic side. Note Conceptual drawing only. Check local codes and use proper plumbing procedures. 39
Figure 6 -Preferred Desuperheater Installation Note Always use copper pipe. Check local codes and use proper plumbing procedures. Figure 7 -Alternate Desuperheater Installation 40
XI. TROUBLESHOOTING If the heat pump goes into lockout on a high or low pressure switch or discharge refrigerant temperature, the cause of the lockout can be narrowed down by identifying the operating mode and which switch the unit locked out on. The following table will help track down the problem once this information is known. Note A lockout condition is a result of the heat pump shutting itself off to protect itself, never bypass the lockout circuit. Serious damage can be caused by the system operating without lockout protection and will void warranty. Important Always install a new filter/dryer after replacing a refrigeration component (compressor, etc.). WARNING Do not remove the desuperheater s high temperature cutout switch, or tank temperatures could become dangerously high. The desuperheater's high temperature cutout switch is located on the return line from the water heater and is wired in series with the desuperheater pump to disable it from circulating at entering water temperatures above 140 F. If the tank temperatures become uncomfortably hot, move this switch to the leaving water line, which will reduce the tank maximum temperatures 10 F to 15 F. 41
CONDITION INDICATOR LIGHTS PWR ASC LP HP DT COMMENTS AC power applied Off Off Off Off Off Blown fuse, or power removed, or loose fuse clips. AC power applied X X ASC indicator on for 4' 35" on power initialization. AC power applied X Power applied - unit running or waiting for a call to run. Run cycle complete X X ASC indicator ON for 70 to 130 seconds after compressor shutdown. LOW PRESSURE INDICATOR Heating or Cooling before Y call Heating - during Y call Cooling - during Y call HIGH PRESSURE INDICATOR Heating or Cooling before Y call Heating - during Y call Cooling during Y call X X Flash X X X X X X X X X X X X X X DISCHARGE REFRIGERANT TEMPERATURE INDICATOR (DT) Heating or Cooling before Y call Heating - during Y call Cooling during Y call X X X X X X X X -Check if Low Pressure switch is open. -Check electrical connections between Low Pressure switch and Controller. -Loss/lack of flow through ground-side heat exchanger. -Low fluid temperature operation in ground-side heat exchanger. -Freezing fluid in ground-side heat exchanger (lack of antifreeze). -Dirty ground-side heat exchanger (on ground water systems). -Low ambient temperature at the heat pump. -Undercharged / overcharged refrigerant circuit. -Expansion valve / sensing bulb malfunction. -Excessive low fluid temperature in hydronic-side heat exchanger. -Loss/lack of flow through hydronic heat exchanger. -Low fluid temperature in the hydronic loop. -Freezing fluid in the hydronic heat exchanger (lack of antifreeze). -Low ambient temperature at the heat pump. -Undercharged / overcharged refrigerant circuit. -Expansion valve / sensing bulb malfunction. -Excessively low fluid temperature in the ground side heat exchanger. -Check if High Pressure switch is open. -Check electrical connections between High Pressure switch and Controller. -Loss/lack of flow through hydronic heat exchanger. -High fluid temperature in the hydronic loop. -Overcharged refrigerant circuit. -Expansion valve / sensing bulb malfunction. -Loss/lack of flow through the ground-side heat exchanger. -High fluid temperature in the ground-side heat exchanger. -Dirty ground-side heat exchanger (on ground water systems). -Overcharged refrigerant circuit. -Expansion valve / sensing bulb malfunction. -Check if DT switch is open. -Check electrical connections between DT switch and Controller. -Significantly low flow through hydronic side and/or ground-side heat exchanger. -Above maximum hydronic and/or below minimum ground temps. -Significantly undercharged refrigerant circuit. -Significantly low flow through hydronic side and/or ground-side heat exchanger. -Above maximum ground and/or below minimum hydronic temps. -Significantly undercharged refrigerant circuit. 42
PROBLEM POSSIBLE CAUSE CHECKS AND CORRECTIONS Blown Fuse/Tripped Breaker Blown Fuse on Controller Broken or Loose Wires Replace fuse or reset circuit breaker (check for correct size). Replace fuse on controller. Check for correct size fuse or loose fuse clips. Replace or tighten the wires. Entire unit does not run. Insufficient cooling or heating Hydronic pump runs but compressor does not, or compressor short cycles. Voltage Supply Low Low Voltage Circuit Remote Hydronic Control or Room Thermostat Interruptible Power Water Unit Undersized Loss of Conditioned Air by Leaks Thermostat Airflow (Across fan coil) Refrigerant Charge Compressor Reversing Valve Desuperheater Remote Hydronic Control or Room Thermostat Wiring Blown Fuse High Pressure or Low Pressure Switch or Discharge Refrigerant Temperature Switch Defective Capacitor Voltage Supply Low Low Voltage Circuit If voltage is below minimum voltage on data plate, contact power company. Check 24-volt transformer for burnout, blown fuse or voltage less than 18 volts. Set system to "Cool" and lowest temperature setting, unit should run. Set system to "Heat" and highest temperature setting, unit should run. If unit does not run in either case, the hydronic control (or room thermostat) could be faulty or incorrectly wired. To check, disconnect thermostat wires at the unit and jumper between "R", "Y" and "G" terminals, and unit should run. Only replace with correct replacement. A substitute may not work properly. Check incoming supply voltage. Lack of sufficient pressure, flow, temperature and/or quantity of water. Recalculate heat gains or losses for space to be conditioned. If excessive, rectify by adding insulation, shading, etc. Check for leaks in ductwork or introduction of ambient air through doors and windows. Improperly located thermostat (e.g. near kitchen inaccurately sensing comfort level in living areas). If thermostat has an anticipator, set at 1.0 or 1.2. Lack of adequate airflow or improper distribution of air. Check the motor speed and duct sizing. Check the filter, it should be inspected every month and changed if dirty. Remove or add resistance accordingly. Low on refrigerant charge causing inefficient operation. Adjust only after checking CFM, GPM and inlet/outlet temperatures. Check for defective compressor. If discharge pressure is too low and suction pressure too high, compressor is not pumping properly. Replace compressor. Defective reversing valve creating bypass of refrigerant from discharge to suction side of compressor. When necessary to replace reversing valve, wrap with wet cloth & direct heat away. Excessive heat can damage the valve. The desuperheater circuit (in-line fuse) should be disconnected during cold weather to allow full heating load to house. Check setting and wiring. If thermostat has an anticipator, set it at 1.0 or 1.2. Check for loose or broken wires at compressor, capacitor, or contactor. Replace fuse or reset circuit breaker (check for correct size). The unit could be off on high pressure, low-pressure or discharge refrigerant temperature cutout. Check water GPM and temperatures, ambient temperature and loss of refrigerant. If unit still fails to run, individually check for faulty switches or wiring. Replace if defective. Check capacitor, if defective remove, replace, and rewire correctly. If voltage is below minimum voltage specified on the data plate, contact local power company. Check voltage at compressor for possible open terminal. Check 24-volt transformer for burn out or voltage less that 18 volts. With a voltmeter, check signal from thermostat at Y to X, M1 on controller to X, capacitor voltage drop. Replace component that does not energize. 43
PROBLEM POSSIBLE CAUSE CHECKS AND CORRECTIONS Hydronic pump runs but compressor does not, or compressor short cycles. Unit short cycles Compressor Overload Open Compressor Motor Shorted to Ground Compressor Windings Open Seized Compressor Remote Hydronic Control or Room Thermostat Compressor Overload In all cases an "internal" compressor overload is used. If the compressor motor is too hot, the overload will not reset until the compressor cools down. If the compressor is cool and the overload does not reset, there may be a defective or open overload. Replace the compressor. Internal winding grounded to the compressor shell. Replace the compressor. If compressor burnout replace the liquid line filter/drier. Check continuity of the compressor windings with an ohmmeter. If the windings are open, replace the compressor. Try an auxiliary capacitor in parallel with the run capacitor momentarily. If the compressor still does not start, replace it. Improperly located thermostat (e.g. near kitchen, inaccurately sensing comfort level in living areas). If thermostat has an anticipator, set at 1.0 or 1.2. Defective compressor overload, check and replace if necessary. If the compressor runs too hot, it may be due to insufficient refrigerant charge. Aquastat The differential is set to close on Aquastat. Increase differential setting to 15 o F. Unit will not operate in heating Wiring and Controls Thermostat Improperly Set Defective Thermostat Incorrect Wiring Aquastat set Too High Remote Hydronic Control or Room Thermostat Reversing Valve does not Shift Loose wiring connections, or control contactor defective. Is it below room temperature? Check the thermostat setting. Check thermostat operation. Replace if found defective. Check for broken, loose, or incorrect wires. Heat pump is trying to heat hot water to too hot of a temperature (over 120 o F). Reduce Aquastat set point. Ensure that these products are properly configured according to their own instructions for the System Type they are installed on. Defective solenoid valve will not energize. Replace solenoid coil. Unit does not cool (Heats Only) Reversing Valve does not Shift, the Valve is Stuck Aquastat set Too Low Insufficient Antifreeze The solenoid valve is de-energized due to miswiring at the unit or remote control - correct wiring. Replace if valve is tight or frozen and will not move. Switch from heating to cooling a few times to loosen valve. Heat pump is trying to cool water too low. Increase Aquastat set point. Water is freezing in hydronic coil. Check antifreeze level and add antifreeze to obtain correct freeze protection. Noisy Operation Compressor Contactor Rattles and Vibrations Water and Airborne Noises Cavitating Pumps Squealing Sound from Inside the Cabinet Make sure compressor is not in direct contact with base or sides of the cabinet. Cold surroundings can cause liquid slugging, increase ambient temp. A "clattering" or "humming" noise in the contactor could be due to control voltage less than 18 volts. Check for low supply voltage, low transformer output or extra long runs of thermostat wires. If the contactor contacts are pitted or corroded or coil is defective, repair or replace. Check for loose screws, panels, or internal components. Tighten and secure. Copper piping could be hitting the metal surfaces. Carefully readjust by bending slightly. Ensu hard plumbing is isolated from building structures. Excessive water through the water-cooled heat exchanger will cause a squealing sound. Check the water flow ensuring adequate flow for good operation but eliminating the noise. Purge air from ground loop or hydronic loop system. Purge air from the water side of the desuperheater heat exchanger or defective desuperheater heat exchanger. 44
WIRING DIAGRAM RGS-W036-084 THERMOSTAT EQUIPMENT GROUND To Flow Center (optional) BLK RED C 208 240 10VA Maximum External Connected Load (24 VAC) Power Supply 208/240 VAC 50/60 Hz TRANSFORMER 24 VAC OUT YEL BLU BLU 14 ORG BLU 15 T1 W2 Y E GRN 12 BLU 15 YEL X RED BLK RED 6 BLU R FAULT TEST FAULT TEST BLK YEL 13 X L BLU 2 W2 Y O G R E BLK 7 X ORG 1 BLK 10 BLU 14 F1 O P1 Relay Hydronic Pump G FREEZE STAT (Optional) CONTROL BOARD J1 J2 BLK 11 WHT 9 BLU 8 RED 208/240 VAC 1/3 HP Max J3 X BLK 11 YEL 13 1 X COMPRESSOR RUN CAPACITOR HP DT LP/FP BLU 4 BLU 5 YEL 16 YEL 16 LT BLU M1 BLK BLK 10 3 2 R S C BLK WHT 9 BLU 5 BLK 3 DT BLU BLU 8 FUSE ORG 1 RVR BLU 5 (When FS Used) BLU 2 LT BLU (When FS Used) HL (Optional) LT BLU (When FS Not Used) LT BLU LP COMPRESSOR R C S RED 6 BLK 7 BLK BLK HP RED BLK BLU DSH (Optional) LEGEND Note: Three Phase Wiring FIELD WIRING FACTORY WIRING J1 with Jumper Forced Air Mode J1 without Jumper Hydronic Mode J2 with Jumper Connects E to W2 COMPRESSOR RED T3 L3 BLU J3 Bypasses Overflow Protection Uses Overflow Protection J3 RV Reversing Valve HP High Pressure Switch LP Low Pressure Switch FP Freeze Protection Switch DT Discharge Thermostat T1 Transformer Fuse P1 Loop Pump DSH Desuperheater BLU BLU T2 L2 BLK T1 L1 45
WIRING DIAGRAM RGS-W120 Power Supply 208/240 VAC 50/60 Hz CAP To Flow Center (optional) THERMOSTAT EQUIPMENT GROUND BLK RED C 208 240 TRANSFORMER 24 VAC OUT YEL BLU ORG BLU 15 T1 BLU 4 W2 Y E 10VA Maximum External Connected Load (24 VAC) GRN 12 BLK RED BLU 15 YEL X RED 6 BLU R FAULT TEST FAULT TEST L3 T3 RED YEL 13 X L BLU 2 W2 Y O G R E L2 T2 BLU 8 BLK 7 X L1 T1 ORG 1 BLK 10 BLK F1 O Hydronic Pump 208/240 VAC 1/3 HP Max P1 Relay G FREEZE STAT (Optional) CONTROL BOARD J1 J2 BLK 11 J3 X BLK 11 YEL 13 BLK 10 1 X HP DT LP/FP BLU 4 BLU 5 YEL 16 LT BLU WHT 9 YEL 16 M1 BLK 3 2 T3 L3 BLK BLU 5 T2 L2 BLK 3 T1 R L1 BLU R DT S S C FUSE Power Supply 208/240 VAC 50/60 Hz Start Assist ORG 1 C YEL NC NO Time Delay T2 T1 BLU COM RVR BLU 5 (When FS Used) BLU 2 LT BLU (When FS Used) R Power Block Y2 RED HL (Optional) LT BLU (When FS Not Used) C BLK LT BLU LP S BLU BLK 7 RED 6 COMPRESSOR #2 BLK BLK HP R RED C BLK S BLU COMPRESSOR #1 DSH (Optional) LEGEND NOTE: Single Phase Wiring FIELD WIRING Start Assist FACTORY WIRING J1 with Jumper Forced Air Mode J1 without Jumper Hydronic Mode J2 with Jumper Connects E to W2 CAP BLK RED J3 Bypasses Overflow Protection BLK RED Uses Overflow Protection J3 COMPRESSOR #2 RV Reversing Valve HP High Pressure Switch LP Low Pressure Switch FP Freeze Protection Switch DT Discharge Thermostat T1 Transformer Fuse P1 Loop Pump DSH Desuperheater BLU COMPRESSOR #1 PN 180-00061 REV A ECN 13-099-N01 46
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