An ‘XL-ENT’ solution for high-volume cryogenic liquid handling
As the demand for clean energy and advanced aerospace technologies continues to accelerate, the need for safe, efficient handling of cryogenic liquids has never been greater. From liquid hydrogen (LH2) and LNG to liquid oxygen (LOX) and helium, these ultra-cold fluids are essential to powering everything from space exploration to next-generation energy infrastructure. However, managing them at scale introduces significant challenges – especially when it comes to maintaining extremely low temperatures, minimising heat loss, and ensuring consistent system performance.
This white paper explores how XL-bore vacuum-jacketed piping (VJP) is redefining high-volume cryogenic liquid transfer. Traditional foam-insulated piping systems often fall short in large scale applications, where heat leaks can compromise efficiency, increase operational costs, and introduce safety risks. In contrast, VJP systems utilise advanced insulation technologies, including multi-layer insulation and static vacuum environments, to dramatically reduce thermal transfer and maintain fluid integrity over long distances.
By enabling higher flow rates, improved thermal efficiency, and reduced product loss, XL-bore VJP systems provide a scalable solution for industries that depend on reliable cryogenic performance. Whether supporting hydrogen fuelling infrastructure, LNG distribution networks, or aerospace launch systems, these engineered solutions are designed to meet the evolving demands of modern energy and mobility applications.
Discover how advanced cryogenic piping systems are not only solving today’s operational challenges, but also playing a critical role in enabling the future of clean energy and space exploration.
Download the white paper to learn more.