# What are Ccf, Mcf, Btu, and therms? How do I convert natural gas prices in dollars per Ccf or Mcf to dollars per Btu or therm?

BtuBritish thermal unit(s)
Ccf
—the volume of 100 cubic feet (cf)
M—one thousand (1,000)
MM—one million (1,000,000)
Mcf—the volume of 1,000 cubic feet
MMBtu—1,000,000 British thermal units
Therm—One therm equals 100,000 Btu, or 0.10 MMBtu

In the United States, natural gas can be priced in units of dollars per therm, dollars per MMBtu, or dollars per cubic feet.1 The heat content of natural gas per physical unit (such as Btu per cubic foot) is needed to convert these prices from one price basis to another. In 2018, the U.S. annual average heat content of natural gas for the residential, commercial, industrial, and transportation sectors was about 1,036 Btu per cubic foot. Therefore, 100 cubic feet (Ccf) of natural gas equals 103,600 Btu, or 1.036 therms. One thousand cubic feet (Mcf) of natural gas equals 1.036 MMBtu, or 10.36 therms.

You can convert natural gas prices from one price basis to another with these formulas (assuming a heat content of natural gas of 1,036 Btu per cubic foot):
\$ per Ccf divided by 1.036 equals \$ per therm
\$ per therm multiplied by 1.036 equals \$ per Ccf
\$ per Mcf divided by 1.036 equals \$ per MMBtu
\$ per Mcf divided by 10.36 equals \$ per therm
\$ per MMBtu multiplied by 1.036 equals \$ per Mcf
\$ per therm multiplied by 10.36 equals \$ per Mcf

The heat content of natural gas may vary by location and by type of natural gas consumer, and it may vary over time. Consumers and analysts should contact natural gas distribution companies or natural gas suppliers for information on the heat content of the natural gas they supply to their customers. Some natural gas distribution companies or utilities may provide this information on customers' bills.

1 The U.S. Energy Information Administration reports natural gas in volumes of cubic feet through 1964 at a pressure base of 14.65 psia (pounds per square inch absolute) at 60° Fahrenheit. Beginning in 1965, the pressure base is 14.73 psia at 60° Fahrenheit.

Last updated: June 3, 2019