Liquefied natural gas (LNG) is natural gas in a liquid form that is clear, colorless, odorless, non-corrosive and non-toxic. It is produced when natural gas is cooled to minus 259 F (-161.66 C) through a process known as liquefaction.
During this process, the natural gas—which is primarily methane—is cooled below its boiling point, and certain concentrations of hydrocarbons, water, carbon dioxide, oxygen and some sulfur compounds are either reduced or removed.
LNG is less than half the weight of water. If spilled on water, it will float and then immediately vaporize if under atmospheric pressure.
LNG has been used as a clean burning alternative in power plants and in thousands of vehicles for decades. With the substantial growth of the LNG fuels industry around the world, the opportunity to use LNG as a cleaner and lower-cost vehicle fuel in transportation fleets and heavy horsepower equipment continues to grow.
LNG has many benefits when compared with other fossil fuels. It is less expensive, has fewer emissions, and is safer and less likely to ignite.
The LNG process
On average, LNG costs about 50 percent less than gasoline or diesel fuel and delivers the same power and performance. According to the Federal Reserve Economic Database, in 2010, the U.S. spent $552 billion on oil alone, and 61 percent of that was imported. A 50-percent savings could bring many benefits.
Natural gas is the cleanest burning fossil-based fuel with 50 percent lower CO2 emissions than the next best option. LNG burns almost completely, leaving only a small amount of carbon dioxide and water behind (CH4 + 2O2 = CO2 + 2H2O).
LNG produces up to 90 percent lower emissions than gasoline or diesel. LNG’s reduced amount of greenhouse gases makes it the cleanest internal combustible fuel for our environment. It also burns cleaner inside engines, resulting in fewer oil changes and less maintenance. By replacing the traditional diesel engine of one 18-wheeler with an LNG engine, its carbon footprint reduction is equivalent to removing 324 automobiles from the road.
LNG is lighter than air. In the event of a spill, LNG disperses quickly, unlike petroleum-based fuels that pool on the ground and create a fire hazard. It also has a higher ignition temperature, making it less flammable than gasoline or diesel. In addition, LNG is non-toxic and non-corrosive and will not contaminate ground water.
Canada and the U.S. sit above large natural gas reservoirs. Some analysts believe that these reservoirs contain four times the energy held in the oil fields of Saudi Arabia. During the last five years, shale reservoirs have revealed natural gas deposits that doubled previously estimated recoverable reserves.
Additional LNG benefits include:
- Range—LNG is the only option for a truck that needs to travel more than 200 miles. Compressed natural gas (CNG) trucks must add multiple tanks, which increase the vehicle’s weight and cost to attain the same range as an LNG truck.
- Pressure—LNG systems operate at lower pressure than CNG [25 to 200 pounds per square inch (psi) for LNG versus 3,600 psi for CNG].
- Storage—As much as 2.5 times more LNG can be stored in the same space as conventional CNG systems, increasing fuel efficiencies and range.
- Horsepower—LNG offers engines that are more than 400 horsepower.
- Fuel economy—LNG provides better fuel economy. CNG is historically 12 to 18 percent less efficient.
- Weight—LNG is denser than CNG, so more fuel can be stored in smaller, lighter tanks that increase efficiencies.
- Fueling speed—LNG fuels as fast as diesel, at 40 gallons per minute. CNG slow fill takes 6 to 8 hours and fast fill takes 30 to 45 minutes. In addition, only half of the tank can be filled because of heat and pressure buildup. If a fleet operates more than one shift, CNG is not a viable fuel because the vehicles will take too long to fuel.
Design Features of Pumps Used in LNG Applications
Pumps used in LNG service are integrally mounted on the same shaft as the motor, which is submerged without coupling or mechanical seals in the LNG liquid. For a retractable in-tank application, the pumps can be installed inside the LNG storage tanks in vertical pump columns with foot valves at the bottom. This removes the possibility of tank leakage because of piping or other external problems. The pump retraction system permits the unit to be safely removed from an operational tank without venting gas vapor to the atmosphere.
By enclosing the entire unit within a suction vessel built to an appropriate pressure vessel code, such as American Society of Mechanical Engineers Standard VIII, the system becomes safe and simple. The pump is factory aligned. It has no couplings and no auxiliary piping for seal purge, bearing cooling or lubrication. This makes it a lightweight, uncomplicated installation.
Key factors to consider for LNG application pumps are: