Heat Pump Water Heaters

Heat pump water heaters extract heat from air (indoor, exhaust, or outdoor air) and deliver it to water. Heat pumps can work either as stand-
alone water heating system, or as combination water heating and space conditioning system.

Heat pump water heaters use electricity to move heat from one place to another instead of generating heat directly. Therefore, they can be
two to three times more energy efficient than conventional electric resistance water heaters. To move the heat, heat pumps work like a
refrigerator in reverse.

While a refrigerator pulls heat from inside a box and dumps it into the surrounding room, a stand-alone air-source heat pump water heater
pulls heat from the surrounding air and dumps it—at a higher temperature—into a tank to heat water. Such a system can be integrated into a
unit with a built-in water storage tank and back-up resistance heating elements. Heat pumps can also be retrofitted to work with existing
conventional storage water heaters.

Heat pump water heaters require installation in locations that remain in the 40°–90°F (4.4°–32.2°C) range year-round and provide at least
1,000 cubic feet (28.3 cubic meters) of air space around the water heater. Cool exhaust air can be exhausted to the room or outdoors.
Because heat pump water heaters will not operate efficiently in cold spaces, they must be installed in spaces with excess heat, such as
furnace rooms. They tend to cool the spaces they are in.

Air-source heat pump systems combine heating, cooling, and water heating. These combination systems pull their heat indoors from the
outdoor air in the winter and from the indoor air in the summer. Because they remove heat from the air, any type of air-source heat pump
system works more efficiently in a warm climate.

Exhaust air units extract heat from a continuously exhausted air stream and work better in heating-dominated climates because they do not
cool ambient air. Some units can even be converted between the two modes of operation for optimum operation in either summer or winter.

Homeowners primarily install geothermal heat pumps—which draw heat from the ground during the winter and from the indoor air during the
summer—for heating and cooling their homes. For water heating, a desuperheater can be added to a geothermal heat pump system. A
desuperheater is a small, auxiliary heat exchanger that uses superheated gases from the heat pump's compressor to heat water. This hot
water then circulates through a pipe to the home's storage water heater tank.

Desuperheaters are also available for demand (tankless or instantaneous) water heaters. In the summer, the desuperheater uses the excess
heat that would otherwise be expelled to the ground. Therefore, when the geothermal heat pump runs frequently during the summer, it can heat
all of your water. During the fall, winter, and spring—when the desuperheater isn't producing as much excess heat—a storage or demand
water heater can heat the water. Some manufacturers also offer triple-function geothermal heat pump systems, which provide heating,
cooling, and hot water. They use a separate heat exchanger to meet all of a home's or building's hot water needs.
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