To convert BTUs (British Thermal Units) to electrical current, you first need to convert BTUs to energy in joules, as 1 BTU is approximately 1,055 joules. Then, to find the equivalent electrical current, you use the formula ( P = IV ), where ( P ) is power in watts (joules per second), ( I ) is current in amperes, and ( V ) is voltage in volts. By rearranging the formula to ( I = \frac{P}{V} ), you can calculate the current based on the power derived from the BTU conversion and the voltage of your electrical system.
Btu is a unit of heat.Horse power is the measurement of power.Now,in order to correlate BTU and HP,We can say BTU*TIME(Hr)*3.931e-4=Horsepower. Hence 48000 BTU Hr is 18.8 Horsepower
0.29308323563892147 watts per btu there for 5200 btu = 1524.0328253223915 watts 1 watt=3.412Btu/hr 1 Btu=the amount of energy needed to heat 1 Lb of water 1 degree. A gallon of water weighs aprox. 8 Lbs.
About 90 percent of an incandescent bulb's energy is turned into heat; one watt is 3.41 btu/hr, so 10 watts would be about 3 btu per hour.
This is a two-step question. First, to convert volt-amps into watts, multiply by the power factor. For a heating element like a convector or kettle the power factor is 1, but for a motor it might be 0.7. In the absence of information a power factor of 0.8 can be assumed. Watts are a measure of power and the equivalent imperial measure is BTU per second or BTU per hour. Alternatively a BTU is a measure of energy and the metric equivalent is watt-seconds or watt-hours. A BTU is 1055 watt-seconds (also known as joules). A kilowatt-hour is equivalent to 3412 BTU.
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CMH is a unit of flow rate (m3/hr or cubic metres per hour) A BTU is a British Thermal Unit, a unit of energy that is equal to around 1055 joules. You cant convert the two as they are a measure of different things, but changing BTU (or Btu) to joules will help standardise the calculations.
British Thermal Unit (BTU)
The cost of one BTU (British Thermal Unit) can vary depending on factors such as location, fuel type, and market conditions. As of 2021, the average cost of one BTU of natural gas is around $0.00001, while the cost of one BTU of electricity is around $0.00003. It is important to check current prices to get an accurate value.
160 btu's. It takes 1 btu (British Thermal Unit) to change the temperature of 1lb of water 1°. This is referred to as sensible heat. This 1 to 1 ratio does not hold true when changing the state of that water to ice or to steam. Changing the state 1lb of water at 212° to 1lb of steam at 212° you must add 970 btu's and to change 1lb of water at 32° into 1lb of ice at 32° you must add 144 btu's. This is referred to as latent heat.
To take a reading on a BTU meter, locate the display screen on the meter that shows the current BTU consumption. Take note of the number displayed on the screen, which represents the amount of energy consumed in BTUs. This reading can be used to track energy usage and make adjustments as needed to improve efficiency.
BTU
The answer: 17070 BTU The math: 3414 BTU = 1 KVA (KW) so 5 KVA = 17070 BTU
To evaporate one gallon of water, approximately 1,200 British thermal units (Btu) are required. This is based on the latent heat of vaporization, which is the amount of energy needed to convert water from liquid to vapor without changing its temperature. Specifically, it takes about 970 Btu to vaporize one pound of water, and since one gallon of water weighs about 8.34 pounds, the total comes to around 1,200 Btu.
1 BTU (British Thermal Unit) is approximately equal to 1055.06 Joules.
70000 BTU/hr = 20.5kW > 70000 BTU/min = 1230.9kW > 70000 BTU/sec = 73854.2kW
1 BTU=0.252164401 kilocalories 1 BTU=0.252164401 kilocalories
There are approximately 0.00094781712 BTU in one joule.