That's going to depend on
-- starting temperature of the water
-- finishing temperature of the water
-- efficiency of the method you use to heat the water.
But we'll play the game.
Here are the numbers we're using:
Energy content of typical commercial grade natural gas in the US: 1,000 BTU per ft3
or 100,000 BTU per ccf.
Heat capacity of water: 1 BTU per pound-mass per degree Fahrenheit.
Density of water: 8.34 lb/gallon = 0.52125 lb-mass per cup
From this MASH-up, we get
(1 cup) x (0.52125 lbm/cup) x (1 BTU/lbm-degree) / (100,000 BTU/ccf) = 0.0000052125 ccf per degree Fahrenheit
Example: To raise the temperature of 1 cup of water 100 degrees:
0.0000052125 x 100 = 0.052125 cubic foot of natural gas, IF all of the energy
in the natural gas could be transferred to the water.
Under intense heat and pressure, the soft coal turns into hard coal.
1.034 therms
100
There are alot of meanings for acronym CCF. One of which is cell culture facility, which is a place that maintain cell culture where people have access and can purchase different cell lines for their own experiments
There are alot of meanings for acronym CCF. One of which is cell culture facility, which is a place that maintain cell culture where people have access and can purchase different cell lines for their own experiments
Under intense heat and pressure, the soft coal turns into hard coal.
Therms Natural Gas to CCF Natural Gas multiply by 0.9756
1.034 therms
A measure of volume- Ccf is one hundred (C) cubic feet (cf)
270 ccf = 201,974 US gallons.
1488 ccf is 1,113,101.3 US gallons.
One CCF is equivalent to 748 gallons. Reference: http://www.raleighnc.gov/portal/server.pt/gateway/PTARGS_0_0_306_202_0_43/http;/pt03/DIG_Web_Content/category/Resident/Environment/WaterUsageCalc.html
1 therm = 100,000 Btu = 0.1 MMBtu = 1 CCF
1 hundred cubic feet.
100
100
1 CCF = 100 Cubic feet, 1 MCF = 1,000 Cubic feet, so there are 10 CCF in 1 MCF