Natural Gas Technologies
As oil prices continue to rise, the U.S. Department of Energy (DOE) has started looking for alternative fuels which would cost less, have lower emissions, and decrease our dependence on the Middle East’s oil reserves. One option that has become more feasible is the use of liquefied natural gas (LNG) to fuel vehicles. Natural gas is an extremely clean burning resource that has become cost-competitive with other fossil fuels. Natural gas is best stored and transported as a compressed or liquefied gas.
LNG is beneficial because is comparable to diesel or gasoline in energy content per gallon. LNG is a more compact way to store gas that can be used in distribution lines, as compressed natural gas, or in LNG vehicles.
Large-scale liquefaction plant.
Currently there are only a handful of these large-scale plants in the United States. Large-scale liquefiers cost between two and three billion dollars, and they require hundreds to thousands of acres. Typically these plants require a large amount of natural gas to be fed into the plant. A portion of that gas is used to fuel the process. The overhead costs of such plants can be expensive as they require a significant number of personnel and energy to run the process.
Such plants consist of numerous liquefaction “trains” which allow them to process a substantial amount of LNG in a day (upward of 150,000 gallons).
INL/PG&E small-scale liquefaction plant in
Natural Gas Products Team has designed small-scale LNG
plants capable of producing a desired output of up to 30,000 gallons of LNG
per day. These plants are small enough to fit into a cargo container. And can be built to code for most locations. INL small-scale liquefiers cost between two and three million dollars to manufacture. They have a very low overhead. The plants are designed to use little or no LNG
in the process and they are equipped with an integrated “stand alone” mode.
The unit built with Pacific Gas and Electric (PG&E) produces around 10,000 gallons of LNG a day and it located on a half-acre lot less than a mile from old town Sacramento. The INL is currently working with the Southwest Transportation Association (STA) and Harris Ranch in the San Joaquin Valley. The INL group has designed a small-scale LNG liquefier capable of producing around 30,000 gallons of LNG a day. The INL /PG&E liquefier and the San Joaquin Valley liquefier are examples of the INL group’s innovative and creative designs for a liquefaction plant.
The INL/PG&E liquefier is small enough to fit into a cargo hold. It is capable of extracting CO2
O during the liquefaction process.
The process is extremely efficient. The power for the liquefaction process comes from the energy created as the gas is expanded from a high pressure to a lower one.
This station comes equipped with a storage tank and a fueling station so that the LNG product can be used, stored or shipped from one location.