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Home My WebLink AboutPERMIT DOCSDIGITAL CONTROLS o Touch screen controls with temperature lock -out feature ® All electronics encapsulated in epoxy, which isolates components and connections from moisture intrusion, the cause of 98% of control failures L�3IC�I`ill�� QCR�p�3QC��S�I� • Seamlessly interfaces with all pool/spa automation systems Smart defrost control works down to mid to low 40° F THERIVIOLERN ° TITANIUM HEAT EXCHANGER n Patented tube in shelf heat exchanger is more efficient and more durable than less expensive tube in tube heat exchangers. ® Patented hydraulic design adds only i PSI at 30 gpm, increasing compatibility with variable speed pumps. Titanium tube heat exchanger is the ultimate protection against corrosion from pool chemical imbalance. SOUND INSULATE® SCROLL COMPRESSOR High efficiency ®One moving part -Reduced noise level UIL7RAVIGLE'T LIGHT PROTECTED ABS PLASTUC CABINET Will not rust, crack or corrode Molded fan cowling maximizes air flow across evaporator coil, increasing efficiency and reducing noise WAS NTY 15 YEARS ON TITANIUM HEAT EXCHANGER AGAINST CORROSION FULL 7 YEARS ON ALL PARTS FULL 2 YEARS ON LABOR For units installed in Florida T ��a THE AQUATHERM STORY IW u . PRESENT. Aquatherm / Calorex Pool Heat Pumps designed and built the first swimming pool heat pump as an economical way to heat a pool. Over the years we have relentlessly pursued improving our products. Our latest models are the finest units we have ever offered. In 2021, Aquatherm introduced the Whisper Heat AT150 Heat & Cool Model alongside the AT150 Heat Only Model. The new Heat & Cool unit includes a reversing valve that switches from heating mode to cooling mode with the push of a button. The upgraded cooling mode is a refreshing option for unscreened pools that tend to run up to 6 degrees warmer. When paired with the PoolSync smartphone app, you can keep your pool at a consistent comfortable temperature and extend your swim season. HOW A HEAT PUMP WORKS The Aquatherm heat pump utilizes proven refrigerant technology to capture the heat in the outside air and - transfer it to the pool water. The fan circulates air across the evaporator coil and the liquid refrigerant absorbs cowPREssoR ( Pool~ heat from the ambient air, transforming it into a gas. �.._. .1'arrn .oar !n The gas is then pumped into the compressor, superheat- �- { - ,: Y pao, in it. The intense) hot as is then pumped into the heat g Y 9 P P Pump - ;` `` ,,, exchanger where the heat transfer takes place. As the r, ,y .,� : �'�J�. 1 `^ pool water passes through the heat exchanger, the hot Pool Fitter FAN gas gives up its heat to the cooler pool water. :• /HEarEXCHANGER AIR COIL CONDENSER The refrigerant returns to a liquid state and the process EVAPORATOR: starts all over again. The result: a warm pool! /EXPANSION VALVE TECHNICAL SPECIFICATIONS MODEL NUMBER AT75 AT115 AT130 AT150 Heat Only I BTUs (Water Temp/Ambient Air/Relative Humidity) AT150 Heat & Cool 80/80/80................................... 72, 000................................110, 000..............................128, 000.............................138, 000 80/80/63................................... 67,000............. ....... ......... ..106,000.................. ....... .... 123,000---..........................129,000 80/50/63................................... 46,000................................ 75,000............ ................... 82,000....................... ........ 88,000 Coefficient of Performance (Water Temp/Ambient Air/Relative Humidity) 80/80/80................................... 5.4.....................................5.8 ..................................... 5.7.................................... 6.2 80/80/63................................... 5.3......................................5.6 .....................................5.4 ..................................... 5.8 80/50/63................................... 4.0......................................4.0 .....................................4.0 ..................................... 4.0 Refrigerant..................................... R410A.... ............................ R410A....................... ......... R410A................ ................ R410A Compressor ................................... Reciprocating.. ... ................. Scroll .................................Scroll ................................. Scroll Heat Exchanger ............................. Rifled Titanium ....... ............ Thermolink.........................Thermolink .................... .... Thermolink ................. ............................... Tube in Tube ...................... Tube in Shell ...................... Tube in Shell ...... I.............. Tube in Shell Electrical KWInput ................................. 3.8...................................... 4.9.....................................5.8 ..................................... 6.4 Volta ge/Hz/Phase..................... 208-230/60/ 1..................... 208-230/60/ 1 ..................... 208-230/60/ 1 ..................... 208-230/60/ 1 Min Circuit Ampacity ................. 31.65 .................................. 40.2 ...................................41.8 ................................... 1 41.8 {{ MaxFuse Size ......................... 50.......................................60 ......................................60 ...................................... 60 j Water Flow Min/Max GPM,.. .......... ............ 30/70.......... ........................ 30/70.................................30/70 .................... ............. 30/70 Dimensions Weight...................................... 255.....................................295 ....................................310 .................................... 327 LxW xH................................ 31x31x35....................... 35x36x37....................... 35x36x41 ............ ........... 35x36x41 0 ca D CAD GENERATED DRAWING, DO NOT MANUALLY CHANGE ._.. a v� n- ..,.� _. zi A Z 0' D o moo D a D i30A " FS _ W z z�5 Z DC Zi ^^ - Z o.... 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Water flow to the heater must remain off until water chemistry is once again in balance and the water is clear in appearance. Failure to follow these in- structions may void heater warranty. CONTROL IRRIGATION AND STORM RUN OFF • Control Irrigation: Irrigation `rater spray can damage heater components. Regardless of water quality, it is important that irrigation be directed away from the heat pump. • Prevent rain water runoff from pouring directly into the heater. The heater is designed to withstand normal rainfall, but solid streams of water from roof drip -lines may eventually damage heat pump components. • If the heat pump resides beneath a roof edge, to promote heat pump longevity, a rain leader (gutter), or rain shield, will be necessary. MAINTAIN PROPER CLEARANCES AROUND HEATER For maximum efficiency, proper air flow clearances around heater must be maintained. It is important to keep the area immediately adjacent to the heat pump clear Of items such as shrubs and bushes, lawn furniture, chemicals containers, etc. These items can prevent air from circulating fully through the heater, and will result in inefficient operation or damage to the heat pump. In addition, do not place objects on top of the heat pump; doing so will block the air from exiting the heater, and will result in damage to the compressor and fan motor. ` Proper clearances are also necessary in order to access the heater for service. 279- 3 2z„ 4 AIR COIL RACK 60l9 0 1t2, FRONT t 2„ FRONTaav �� 36" 0 0 TOP VIEW 10