How much energy to heat a room, and heat pump efficiency?

In summary, the conversation is discussing the amount of energy needed to power a heat pump compressor for heating a 10 ft. x 10 ft. room in a typical house. The estimated input power for this task is 4 watts per square foot, which would equal 1000 watts or 1 kWh to maintain room temperature. This is also equivalent to 3413 BTU per hour, though "BTU" and "BTUH" are often used interchangeably. The exact amount of energy needed may vary depending on factors such as insulation and climate.
  • #1
ProtoBob
6
0
O.K. this is maybe a large question...

I am trying to find out how much energy it would take to do the work of a heat pump compressor that would be required to heat a... let's say 10 ft. x 10 ft. room of a typical house.

I know there are a lot of variable here...

What I am trying to discern from this, is, if there were an alternate method to drive a heat pump compressor motor, how much energy would be required to do so...

Any thoughts?
 
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  • #2
You're not looking for energy, you are looking for power. This is very dependent on things like insulation and climate. A good starting guess of required heating for a relatively cool climate (say, the northeastern United States) would be 10 W/sq ft. A decent heat pump has a COP of 2.5 when it is cold outside, so that gives an input power of 4 W/sq ft.
 
  • #3
If I am understanding correctly, that's 10 watts per sq. ft. so a 10 x 10 room would be
100 sq. ft. requiring 100 * 10 watts, or 1000 watts to maintain a "typical" temperature.

Could this also be stated as 1000 watts per hour or 1kwh to maintain room temperature?

would this also be equivalent to 3413 btu per hour?

Thanks! :)
 
  • #4
ProtoBob said:
If I am understanding correctly, that's 10 watts per sq. ft. so a 10 x 10 room would be
100 sq. ft. requiring 100 * 10 watts, or 1000 watts to maintain a "typical" temperature.
Could this also be stated as 1000 watts per hour or 1kwh to maintain room temperature? [/quote] There is no such thing as "watts per hour". There is watts for an hour, which is watt-hours (or 1000 watt-hours = 1 kWh). Watts is already a rate.
would this also be equivalent to 3413 btu per hour?
Yes, though note that people do a kind of short-hand and often interchange "BTU" and "BTUH". BTU is technically the rate (power, like kW) and BTUH is the energy (like kWh).
 

1. How does a heat pump work to heat a room?

A heat pump uses a refrigerant to transfer heat from one location to another. In heating mode, the refrigerant absorbs heat from the outside air and transfers it into the room, similar to how a refrigerator removes heat from its interior. This process is more efficient than traditional heating methods, as it does not require the use of fuel to generate heat.

2. How much energy does it take to heat a room with a heat pump?

The amount of energy required to heat a room with a heat pump depends on several factors, including the size and insulation of the room, the outside temperature, and the efficiency of the heat pump. On average, a heat pump can provide 3-4 units of heat for every 1 unit of electricity it consumes, making it a highly efficient heating option.

3. What is the most efficient temperature setting for a heat pump?

The most efficient temperature setting for a heat pump is between 68-72 degrees Fahrenheit. This range allows the heat pump to run efficiently without using excessive energy. Setting the temperature higher or lower can result in decreased efficiency and higher energy consumption.

4. How does the size of a heat pump impact its efficiency?

The size of a heat pump is an important factor in its efficiency. A heat pump that is too small will have to work harder to heat a room, resulting in higher energy consumption and decreased efficiency. On the other hand, a heat pump that is too large for the space will cycle on and off frequently, also reducing its efficiency. It is important to choose the right size heat pump for the specific room or area.

5. Can a heat pump be used in cold climates?

Yes, heat pumps can be used in cold climates. While traditional heat pumps may struggle to efficiently heat a room in extremely cold temperatures, there are options such as geothermal heat pumps that are specifically designed for colder climates. It is important to consult a professional to determine the best type of heat pump for your specific climate and heating needs.

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