Natural gas is an odorless, nontoxic, gaseous mixture of hydrocarbons. It accounts for about a 25% of the energy used in the United States. About one-third goes to residential and commercial uses, such as heating and cooking; one-third to industrial uses; and one-third to electric power production.
ACRONYMS CNG - compressed natural gas LNG - liquefied natural gas RNG - renewable natural gas (or CNG made from renewable sources like landfill gas or biomethane from digester operations).
CNG vehicles traveled from
California to Washington D.C. to bring awareness of the benefits of
natural gas in fleets
HOW IS IT PRODUCED? CNG is produced by compressing natural gas to less than 1% of its volume at standard atmospheric pressure. To provide adequate driving range for a vehicle, Compressed Natural Gas (CNG) is stored in cylinders at a pressure of 3,000 to 3,600 pounds per square inch. A CNG-powered vehicle gets about the same fuel economy as a conventional gasoline vehicle on a gasoline gallon equivalent basis.
Liquefied natural gas, or LNG, is natural gas in its liquid form. LNG is produced by purifying natural gas and super-cooling it to -260°F to turn it into a liquid. During the process known as liquefaction, natural gas is cooled below its boiling point, removing most of the compounds found in the fuel. Renewable natural gas (RNG), also known as biomethane, is produced from organic materials—such as waste from landfills and livestock—through anaerobic digestion. RNG qualifies as an advanced biofuel under the Renewable Fuel Standard. Because RNG is chemically identical to fossil-derived conventional natural gas, it can use the existing natural gas distribution system and must be compressed or liquefied for use in vehicles.
HOW IS IT USED? Natural gas powers about 150,000 vehicles in the United States and roughly 15.2 million vehicles worldwide. Natural gas vehicles (NGVs) can run on compressed natural gas (CNG) or liquified natural gas (LNG). CNG is the most widely used option (as well as the most widely used alternative fuel) and is a good choices for high-mileage, centrally fueled fleets that operate within a city or regional area. For vehicles needing to travel very long distances, liquefied natural gas (LNG) enables the vehicles to go longer distances on natural gas. The advantages of natural gas as a transportation fuel include its domestic availability, low cost, growing infrastructure and inherently cleaner-burning qualities.
THERE ARE THREE TYPES OF NATURAL GAS VEHICLES
Dedicated: These vehicles are designed to run only on natural gas and are spark-ignited (SI) engines.
Bi-fuel: These vehicles have two separate fueling systems that enable them to run on either natural gas or gasoline, not both. The engines are almost always SI, and use a spark plug to provide the ignition point.
Dual-fuel: These vehicles are traditionally limited to heavy-duty applications, and have fuel systems that run on natural gas and diesel at the same time. They are compression-ignition (CI) engines and use diesel as the “spark” for ignition, and typically burn on the order of 50% natural gas and 50% diesel.
For light- and medium-duty fleets, although there are a few OEM CNG vehicles on the market, most vehicles are conventional vehicles that are converted to run on natural gas. As you move into the heavy-duty market and the largest on-road vehicles used in the U.S. (think class-8 tractors, dump trucks, school buses), you find many more OEM products that are purchased directly from the vehicle manufacturers. Currently, about 12-15% of public transit buses in the U.S. run on natural gas.
WHAT ARE THE BENEFITS OF USING NATURAL GAS Compressed and liquefied natural gas are clean, domestically produced alternative fuels. Using these fuels in natural gas vehicles increases energy security and can lower emissions. The driving range of non-gas vehicles is generally less than that of comparable gasoline and diesel vehicles because with natural gas, less overall energy content can be stored in the same size tank as the more energy-dense gasoline or diesel fuels. Natural gas is safely and responsibly developed in 31 states across the United States, and it is putting Americans to work in all 50 states. How many jobs? IHS Global Insight estimates that as of 2008, total natural gas production supported more than 2.8 million jobs in the United States. Increasing the development of our nation’s unconventional sources of gas alone will add more than 1.4 million U.S. jobs by 2015. A recent study by PricewaterhouseCoopers for the National Association of Manufacturers forecasts an additional 1 million U.S. jobs in manufacturing by 2025, thanks to our nation’s vast, affordable supplies of natural gas.
Compared with vehicles fueled by conventional diesel and gasoline, natural gas vehicles can produce lower levels of some emissions. And because CNG fuel systems are completely sealed, CNG vehicles produce no evaporative emissions. Natural gas is increasingly used to replace gasoline in smaller applications, such as in forklifts and commercial lawn equipment. Because natural gas is a low-carbon, clean-burning fuel, a switch to natural gas in these applications can result in substantial reductions of hydrocarbon, carbon monoxide, oxides of nitrogen, and greenhouse gas emissions.
WHAT ARE THE EMISSION REDUCTIONS GAINED FROM NATURAL GAS? Light-duty vehicles running on compressed natural gas (CNG) and liquefied natural gas (LNG) emit approximately 6%-11% lower levels of greenhouse gases than gasoline powered vehicles throughout the fuel life cycle. Natural gas produced via renewable methods offers additional benefits. Renewable natural gas (RNG) is essentially biogas—the gaseous product of the decomposition of organic matter—that has been processed to purity standards. Capturing biogas from landfills and livestock operations reduces emissions by preventing methane release into the atmosphere. Methane is 25 times stronger than carbon dioxide as a greenhouse gas. Additionally, producing biogas through anaerobic digestion reduces odors and produces nutrient-rich liquid fertilizer.
Reduces carbon dioxide emissions 10-15%; for RNG that numbers shoots to over 80%
Emits little or no particulate matter (e.g., PM-10, PM-2.5); the reductions are massive as compared to pre-2008 diesel vehicles
Reduces carbon monoxide emissions 50%-97%
Reduces nitrogen oxide emissions 35%-60%
Emits fewer toxic and carcinogenic pollutants
Reduces non-methane hydrocarbon emissions 50%-75%
Emits little or no particulate matter
Virtually eliminates evaporative emissions
Find out how Waste Management powers refuse vehicles with renewable natural gas from the Altamont Landfill in California.