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How do you convert per kWh to dollars?
You cannot. kWh is a measure of energy. There are lots of people in the world who use energy but have no use for a dollar. Kwh and dollars measure different things and, according to the basic principles of dimensional analysis, conversion from one to the other is not valid.
Convert dollars mwh to cents kwh?
If you mean dollars PER mwh and cents PER kwh, divide by 10.
How many btu per hour would be produced in a 12-kW electrical heater?
There are at least 5 different definitions for slightly different BTUs. One of them says that 1 kWh = 3412.14 BTUs. Let's use that one. 1 kWh = 3412.14 BTUs 12 kWh = 40,945.68 BTUs
10000 btu equals how many pounds ao propane an hour?
A 10,000 BTU heater will use about 1/2 pound of propane per hour. Conversions to different types of energy being used (ie steam, KwH, etc.) will vary the answer, as will variations such as leaks, 02, temperature setting, efficiency, etc.
1 kilowatt hours equal to how much ampere?
You can't convert that directly. kWh is a unit of energy; ampere is a unit of current.
How do you convert per kWh to dollars?
You cannot. kWh is a measure of energy. There are lots of people in the world who use energy but have no use for a dollar. Kwh and dollars measure different things and, according to the basic principles of dimensional analysis, conversion from one to the other is not valid.
What is the btu value of 341744380 kwh divided by 508068160 kwh?
0.6726
How many BTU's does it take to make 1 kwh?
To convert kilowatt-hours (kWh) to British Thermal Units (BTU), you can use the conversion factor that 1 kWh is approximately equal to 3,412 BTU. Therefore, it takes about 3,412 BTUs to produce 1 kWh of energy. This relationship is useful for understanding energy consumption and efficiency in various heating and cooling applications.
Convert dollars mwh to cents kwh?
If you mean dollars PER mwh and cents PER kwh, divide by 10.
Cents per kWh to dollars per MW?
To convert cents per kilowatt-hour (kWh) to dollars per megawatt (MW), you can use the following conversion factors: 1 MW equals 1,000 kW and 1 dollar equals 100 cents. Therefore, to convert cents per kWh to dollars per MW, you multiply the value in cents by 10. For example, if the rate is 10 cents per kWh, it would be equivalent to $100 per MW.
How many btu of heat can be produced by 4 kWh of electricity?
1 kilowatt-hour is 3412 British Thermal Units, so 4 kWh is 13648 BTU.
How con someone convert KWH into MMBTUs?
One BTU is approximately a third of a watt-hour. An MMbtu is million.
Convert natural gas mcf's to kwh?
One thousand cubic feet of gas (Mcf) -> 1.027 million BTU = 1.083 billion J = 301 kWh by Lyon
How long will it take for a 2kW heater to raise water 26000 BTU?
To determine how long it will take for a 2 kW heater to raise 26,000 BTU, you first need to convert BTUs to kilowatt-hours (kWh) since the heater's power is in kW. 26,000 BTU is approximately 7.64 kWh (1 BTU = 0.000293 kWh). Dividing the energy needed (7.64 kWh) by the power of the heater (2 kW) gives you about 3.82 hours. Thus, it will take approximately 3 hours and 49 minutes for the heater to raise the water by that amount.
How many btu of heat can produce by 4 kwh of electricity?
1 kilowatt-hour is 3412 British Thermal Units, so 4 kWh is 13648 BTU.
How many Btu of heat can be produced by 4 kWh of electric?
1 kilowatt-hour is 3412 British Thermal Units, so 4 kWh is 13648 BTU.
How do you convert kwh to btu?
1 BTU = 1.055 kilojoules. (1 joule per second = 1 watt, or 1 joule = 1 watt-sec)1 kWh = 3.6 megajoules (1000 x 3600 watt-sec = 3600 kilojoules)3600000/1055 = 3412.3So 1 kWh is the energy equivalent of 3412.3 BTUs.The reverse conversion is that 1 BTU = 0.000293 KWh*However, a kWh is energy used in work over time, while BTUs are energy content.WattHours (Wh) or BTU's are measurements of Energy: which is how much energy is used (a certain amount). Conversely, watt and hp are measurements of power, which is how fast energy is being used (a certain rate).Over the last century Wh, KWh, and MWh has replaced BTU in all non-heating uses of energy, except in scientific use (prefers the joule, J). In describing thermal energy use however, BTU (larger amounts of energy) and calories (smaller amounts of energy) and sometimes therms (very large amounts) are still used.
