Shell International Trading and Shipping Company Limited has signed a memorandum of understanding (MOU) with Alfa Laval regarding the development of a new Gas Combustion Unit (GCU) for use on liquid hydrogen carriers, says an article published on their website.
Crucial safety for zero-carbon fuel
By paving the way for the safe transport of hydrogen by sea, the project is an important step on the path to global decarbonization.
Under the MOU, Alfa Laval will develop a system to safely combust hydrogen boil-off gas (BOG) from a vessel’s storage tank, as part of a new liquid hydrogen carrier.
Because the venting of cargo is restricted, a GCU offers a means of controlling tank pressure/temperature when the BOG poses safety risks beyond the tank’s design conditions.
“Renewable hydrogen will likely be a key fuel in tomorrow’s decarbonization mix, but accessibility will determine its impact,” says Carl Henrickson, General Manager of Shipping Technology, Shell.
“By enabling safe ocean transport of liquid hydrogen, we can help speed up the global transition to clean energy and Shell’s target to become a net-zero emissions energy business by 2050. Alfa Laval shares our ambition and is our choice of partner.”
“We are proud to support Shell in developing a marine infrastructure for hydrogen,” says David Jung, Business Development Manager, Alfa Laval.
“Global hydrogen demand is expected to grow many times larger than it is today, and liquid hydrogen carriers at sea will be a vital link in the world’s decarbonized fuel chain.”
Unique experience in marine gas combustion
As the leader in gas combustion on LNG carriers, Alfa Laval has insights and technology that will act as a springboard.
The design of the new GCU system for hydrogen will be based on the existing Alfa Laval GCU for LNG.
Over a decade
More than 200 of these units have been installed in just over a decade, and an additional 100 units have been ordered during 2022.
The challenges in hydrogen combustion, however, are significantly greater than those involved with LNG.
Higher boil-off rate
“With its boiling point of -253°C, hydrogen is expected to have a higher boil-off rate than methane, which will make having a GCU or similar means of BOG handling crucial on hydrogen carriers,” says David Jung.
“In addition, hydrogen is light, highly flammable and easy ignitable. Safety will be paramount when transporting it on board, so there are critical safety considerations when designing the GCU system.”
Testing and type approval
Alfa Laval will design and engineer the new GCU for hydrogen with the aim of receiving an approval in principle (AIP) from an IACS classification society.
Once the AIP is achieved, a GCU prototype will be built for testing and type approval.
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Source: Alfa Laval