It is not the preferred method of heat due to climate in the NE US. Air source heat pumps are ineffective below 35* or so.
the heat pump is cheaper but the pump does not work as well when its below 40 out side thats when you want to run heat strip
No.
it requires no work. not
Refrigerant
An Amana heat pump works just like an air conditioner would work. When the temperature outside starts falling, the heat pump automatically turns on and by reversing the process of turning air cold, it heats the air instead, thus allowing you to keep your home warm.
the heat pump is cheaper but the pump does not work as well when its below 40 out side thats when you want to run heat strip
Heat Engine is the system that converts the Heat energy into mechanical work while Heat pump converts the work into heat
No.
An electric heat pump can heat up your home during winter and cool it during summer.
it requires no work. not
Get it in writing. By the way, your heat pump won't work if covered in snow, but then, if it's cold enough to snow, it won't work well anyway.
yes
The heat pump equation used to calculate the efficiency of a heat pump system is the Coefficient of Performance (COP) formula, which is the ratio of the heat output to the work input. It is expressed as COP Qh / W, where Qh is the heat output in watts and W is the work input in watts. A higher COP value indicates a more efficient heat pump system.
a heat pump that uses work to move heat
A heat pump and a refrigerator both transfer heat, but they work in opposite ways. A heat pump moves heat from outside to inside to warm a space, while a refrigerator moves heat from inside to outside to cool a space.
A heat pump and a refrigerator both transfer heat, but they work in opposite ways. A heat pump moves heat from outside to inside to warm a space, while a refrigerator moves heat from inside to outside to cool a space.
The formula for the coefficient of performance (COP) of a heat pump is the ratio of the heat output to the work input. It is calculated as COP Qh / W, where Qh is the heat output in watts and W is the work input in watts. A higher COP value indicates a more efficient heat pump.