Abstract: Pressure vessels are closed structures containing liquids or gases under pressure. Familiar examples include fuel tanks, pipes, and pressurized cabins in aircraft and space vehicles. When ...

All over the world, pressure vessels are being pressed into service beyond their design lifetimes. Advances in machine learning can lead to the deployment of increasingly reliable non-destructive ...

Fibre-reinforced pressure vessels are increasingly becoming the cornerstone of the hydrogen economy, playing a key role in the transport, storage and use of hydrogen for both mobile and stationary ...

AZL Aachen GmbH, a recognized innovator in lightweight technologies research and industry collaboration, announces the initiation of a new project titled “Trends and Design Factors for Hydrogen ...

AZL CAD design and CAE analysis examples for Type 4 hydrogen pressure vessels, including an example of a winding scheme and relative weight results for different pressure vessel designs. Source (All ...

The use of fiber-reinforced composites in Type 3, 4 and linerless Type 5 pressure vessels is growing, used to store compressed/renewable natural gas (CNG/RNG) and hydrogen as part of the global ...

Pressurized systems at Michigan Technological University include everything from small, unheated, low-pressure laboratory setups to large, extremely high-pressure heated metal vessels weighing several ...

In this Q&A, Marine Log Editor-in-Chief Heather Ervin speaks with Job Volwater, CEO of C-Job Naval Architects, about the ...