Excerpt from U.S. Coast Guard “Proceedings of the Marine Safety & Security Council” magazine by LT Hannah Kawamoto, U.S. Coast Guard Office of Operating and Environmental Standards, Deepwater Ports Standards Division.
Natural gas is odorless, colorless, non-toxic, non-corrosive, and, when supercooled to minus 260 degrees Fahrenheit, it turns into liquefied natural gas (LNG). Liquefying natural gas reduces its volume by more than 600 times, which makes it more efficient and practical to transport.
When liquefied natural gas reaches its destination, it is revaporized back into a gas, which is then linked to pipelines that transport the gas.
Best Available Commercial Technologies
The three sources of thermal energy typically used to warm LNG from a liquid to a gaseous state are ambient air, heat from combustion, and seawater.
Each system uses a vaporization process that passes the liquefied natural gas through pipes that are surrounded by a heating medium to transfer heat into the LNG. “Direct” heat is when the heating medium directly warms the liquefied natural gas. “Indirect” heat is when the heating medium is used to warm an intermediate (or secondary) medium that transfers the heat to the LNG.
Intermediate Fluid Vaporizers
An intermediate fluid vaporizer uses an intermediate heat transfer fluid (such as propane, refrigerant, or a water/glycol mixture) to revaporize LNG. Although refrigerant and propane have low flash points ideal for heat transfer, the operational risks are much higher when handling these types of fluids, and they are very costly. The water/glycol mixture has a high flash point, requiring a larger heat transfer area, which results in a larger system than the propane or refrigerant systems. However, the water/glycol fluid system is more cost effective and the associated operational risks are relatively low.
Ambient Air Vaporizers
Ambient air vaporization (AAV) technology uses ambient air as the thermal energy source to vaporize liquefied natural gas. The LNG is distributed through a series of surface heat exchangers, where the air travels down and out the bottom of the vaporizer.
This can be set up as either a direct heat or indirect heat system. AAV technology is best suited for areas with warmer ambient temperatures. Frost on the vaporizer is an issue because the LNG is vaporized directly against the air and the water vapor in the air condenses and freezes. Frost build-up reduces performance and heat transfer. Additionally, the ambient air vaporization system requires a significant amount of space.
Open Rack Vaporizers
Open rack vaporizers use seawater as the thermal energy source in a direct heat system to vaporize the LNG. To control algae growth within the system, chlorine is injected on the intake side of the system. The treated seawater is then pumped to the top of the water box and travels down along the outer surface of the tube heat exchanger panels, while LNG flows upward through these tubes and is vaporized. Because this technology relies on seawater as the primary heat source, it is only effective where seawater temperatures exceed approximately 63 degrees Fahrenheit.
Shell and Tube Vaporizers
Shell and tube vaporizers (STV) also use seawater as the thermal energy source. The liquefied natural gas passes through multiple tubes while seawater enters a shell surrounding the tubes.
A closed-loop system uses an intermediate fluid to transfer heat. The intermediate fluid flows through tubes in separate heating equipment to absorb heat, then the fluid passes through the STV unit to re-gasify the LNG. Since there are two heat exchangers, this requires a large amount of space.
Submerged Combustion Vaporizers
Submerged combustion vaporizers do not use seawater for LNG vaporization. Instead, the liquefied natural gas is warmed by flowing through tube bundles that are submerged in a water bath, which is heated by natural gas combustion. The submerged combustion burner emits hot exhaust gas that directly heats the water bath by bubbling through the water to an exhaust stack.
Waste Heat Recovery and Engine Cooling Technology
Deepwater ports can use regasification vessels equipped with revaporization systems to vaporize the LNG. Waste heat recovery and engine cooling technologies have been incorporated as part of the revaporization system to improve the efficiency and reduce the emissions of these regasification vessels.
Additionally, using engine cooling technology reduces the amount of seawater intake because instead of cooling the engines solely with seawater, cooled water from the LNG vaporization process is used to cool the engines. Additionally, any cooling systems can be tied into the intermediate fluid, such as the heating, ventilating, and air conditioning systems.
For more information:
Full article and “Environmental Protection” edition of USCG Proceedings is available at http://www.uscg.mil/proceedings/Winter2008-09/.
Subscribe online at http://www.uscg.mil/proceedings/subscribe.asp.
Direct requests for print copies of this edition to: HQS-DG-NMCProceedings@uscg.mil.
A discussion forum on Marine Safety, Recreational Boating Safety, and waterways managment as we work together to protect maritime commerce and mobility, the marine environment, and safety of life at sea.
Tuesday, April 13, 2010
3 comments:
Comment Policy
We welcome your comments on postings at all Coast Guard sites/journals. These are sponsored by the U.S. Coast Guard to provide a forum to talk about our work providing maritime safety, security and stewardship for the American people to secure the homeland, save lives and property, protect the environment, and promote economic prosperity.
Please note: Anonymous comments have been disabled for this journal. It is preferred that you use your real name when posting a comment. WE WILL POST THE NAME YOU ENTER WHEN YOU SUBMIT YOUR COMMENT. Also, you are welcome to use Open ID or other user technologies that may be available.
All comments submitted are moderated and will be reviewed before posting. The Coast Guard retains the discretion to determine which comments it will post and which it will not. We expect all contributors to be respectful. We will not post comments that contain personal attacks of any kind; refer to Coast Guard or other employees by name; contain offensive terms that target specific ethnic or racial groups, or contain vulgar language. We will also not post comments that are spam, are clearly off topic or that promote services or products.
We will make our best effort to promptly post those comments that are consistent with the Comment Policy, but given the need to manage federal resources, moderating and posting of comments will usually occur only during regular business hours, Monday through Friday. Comments submitted outside of business hours will be read and posted as quickly as possible.
It is very interesting how the branded giants are now considering gadgets that save the earth.It is time we stop polluting the air and try to save it from further contamination of the let out toxins.
ReplyDeleteManhattan Air Conditioning Service
That sounds awesome that new vaporization methods are going to help clean the environment and added to the air conditioner for better life.
ReplyDeleteNYC Air Conditioning & Vent Cleaning
Hi,
ReplyDeleteNice blog, thanks for sharing this information.
vaporization