A therm is an energy unit (equal to 100000 BTU) while kilowatts are power (energy/time). 1 watt = 1 Joule/second, and 1 kilowatt = 1000 Joules/second.
The kilowatt hour is an energy unit (power X time = energy). 1 therm = 29.31 kWh
US average in 2007 was about 980 therms per year per customer.
Operations on wastewater from the processing of sugar beets have shown ... or~er of 10000 Kg COD per day will, therefore, produce the order of 1000 therms of energy per day while, ... a by product of many types of food processing activities.
KWh is an amount of energy, w(watts) is a rate of energy (power). You can't equate them.
12500 - 10500 = 2000 KWh. (2000 x 15)/100 = cost of electricity, and it's a lot !
kWh, kilo Watts per hour
To convert gas usage to kilowatt-hours (kWh), you need to know the energy content of the gas. On average, natural gas has an energy content of about 1,000 British thermal units (BTUs) per therm. Since 1 therm is approximately equal to 29.3 kWh, 300 therms of gas would equate to about 8,790 kWh (300 therms x 29.3 kWh/therm).
To convert 160 electric units to gas, you need to know the specific conversion factor between the two energy types, which can vary depending on the context and region. Generally, electricity is measured in kilowatt-hours (kWh), while gas is measured in therms or BTUs. For example, 1 kWh is approximately equivalent to 0.03412 therms. Therefore, to convert 160 electric (kWh) to gas (therms), you would multiply 160 by 0.03412, resulting in roughly 5.46 therms.
There are 3413 btu per kWh and 100,000 btu per therm of natural gas, these are constants. In order to give a correct answer the exact efficiency rating of the high efficiency furnace and the energy costs per kWh and therms would need to be known.
100 kWh
A pilot light in a typical gas appliance uses about 0.01 therms per hour.
To convert LNG gallons to therms, you need to know the energy content of LNG. LNG has an energy content of about 0.0374 therms per gallon. Therefore, to convert LNG gallons to therms, you would multiply the number of gallons by 0.0374. This calculation will give you the equivalent amount of energy in therms.
A 18,000 BTU heater uses approximately 0.157 therms per hour. This can vary slightly depending on the efficiency of the heater and the specific model.
110 therms.
There are 0.00001 therms in 1 BTU.
To calculate the cost per kWh given 35 kWh of usage and the total cost, divide the total cost by the number of kWh. For example, if the total cost is $70 for 35 kWh, the cost per kWh would be $70 / 35 kWh = $2 per kWh.
1 million BTU = 10 Therms
Divide the dollars per kWh by 3,412.14163