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Heat Pump Operation
Heat
pumps work like air conditioners during the summer and reverse to become air
heaters during the winter. During the summer, refrigerant is piped through the
indoor coils, absorbs heat from the room air, and vaporizes. The cooled room
air is then re-circulated in the house by a blower. The vaporized refrigerant
flows into the compressor, which pumps the refrigerant to the outdoor coil,
where it condenses back into a liquid by releasing its heat to the outdoor air.
Air is circulated through the outside unit by a fan. The cooled refrigerant
then flows back to the indoor coil, where the heat transfer cycle is repeated.
In the heating mode, the refrigerant flow is reversed, bringing heat inside
from outdoors, essentially working like a conventional air conditioner in
reverse. Cold refrigerant is piped through the outdoor coils, absorbing heat from the
outside air. The refrigerant vaporizes and flows into the compressor, which
pumps it to the indoor coil, where it condenses back into a liquid by releasing
its heat to the indoor air. The refrigerant then flows back to the outdoor
coils, where the heat transfer cycle starts again.
Like refrigerators, most heat pumps have defrost cycles that minimize frost
buildup on the evaporator during the winter heating cycle. Defrost occurs automatically
at pre-set time intervals. Defrosting works against the efficiency of the unit
when it switches into defrost mode unnecessarily, wasting heating and cooling
capacity. Microprocessor controls in some units prevent this from happening.
Some controls even determine whether the heat pump or back-up heat is more economical
at a particular outdoor air temperature and switch to that heating system.
