If you must rely on fossil fuels to heat your home – whether directly by burning a gas or liquid (heating oil) in a furnace or indirectly through the mostly fossil-fueled electricity grid – then burning natural gas in your home furnace is the cleanest and most efficient way to do it. One of the most popular blogs on Mapawatt (and one of the fundamentals to understanding saving electricity) is “What is a kWh”. But the kWh is mainly used (at least in the U.S) to designate electricity usage. While you can represent the energy in natural gas with the units kWh, it is typically priced to customers and shown on the bill as the therm, short for 100,000 British Thermal Unit (BTU). A BTU is the amount of heat required to raise the temperature of a pound of water by one degree Fahrenheit. Also, 1 therm is equal to about 29.3 kWh.
On your natural gas bill, you probably pay by the therm. On the image of a natural gas bill at the top of the post, the homeowner pays $0.859 per therm. This value is determined by measuring the volume of gas that your natural gas meter records (in CCF, which stands for 100 cubic feet) by the BTU Factor. The BTU factor is a conversion factor that accounts for the fact that a volume of gas will change based on pressure. For instance, if you fill a balloon with natural gas in Florida (at sea level) and carry that balloon to Denver (the mile high city), then the volume of gas will have expanded because Denver is at a lower pressure than Florida. However, the heating content in the balloon is the same, because the amount of molecules (the mass) of natural gas haven’t changed! The BTU factor takes into account this atmospheric pressure change to determine the actual heating value in a volume of natural gas at your home's elevation. But you don’t really need to worry about this. All you need to care about for your bill is the amount of Therms listed.
The therms shown on your bill represent the heat content in the natural gas that flowed through your natural gas meter. The actual amount of heat energy that entered your living space from your furnace is a product of the heat energy in the natural gas (that is burned in the furnace) and your furnace’s efficiency. Obviously, the more efficient your furnace is, the more of the natural gas heat is transferred to the air that enters your home. A higher efficient furnace will transfer more of the heat given off my the combusion of natural gas into the air that flows from the furnace into your house. This is why it is important to have a highly efficient furnace!
The therm is the measure of a gas or liquid’s energy content which is given off in the form of heat when that gas or fluid is combusted. For pure substances like methane (basically natural gas is methane with a few other impurities), the energy content is known. Methane is composed of 1 Carbon atoms and 4 Hydrogen atoms, and when the methane molecule combusts in your furnace, it will give off a given amount of heat energy that is known by anyone with a ASHRAE handbook.
Many homes don’t just use natural gas to heat the home, but also to cook and heat the hot water heater. In my next home I plan on using less therms to heat my water because I plan on installing a solar thermal water heater. If you need any form of heat in your house, natural gas is the best fossil-fuel form. Don’t worry too much about what a therm actually is, you just need to know how to find how many therms you use each month on your bill so you can work on lowering them!
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