Cryogenic organic Rankine cycle (ORC) is considered as one of the most attractive solutions
to utilize LNG cold energy for power generation. However, its thermodynamic performance is …

The dual mixed-refrigeration process makes it possible to achieve higher liquefaction of
natural gas with the advancement in both the refrigeration cycles and refrigerant …

Liquid hydrogen (LH2) aircraft have the potential to achieve carbon neutrality. However, if
the hydrogen is produced using electricity grids that utilise fossil fuel, they have a non-zero …

A novel concept for energy integration across the liquefied natural gas (LNG) supply chain is
proposed by using liquid air as a medium for recycling cold energy. This allows the natural …

Hydrogen (H 2) is considered a promising fuel and an energy carrier for carbon neutrality,
but H 2 has an issue in transportation and storage due to its low volumetric density. H 2 …

Typical liquefaction processes are considered to be energy and cost-intensive. The dual
mixed refrigerant (DMR) process (with two independent refrigeration cycles for cooling and …

Utilizing the high-pressure exergy of a pipeline gas is a route to overcome the challenge of
high power consumption in liquefying natural gas. Through the expansion in city gate …

The energy intensity of the natural gas liquefaction process in LNG value chains is
considerable, and therefore a number of energy optimization studies have been conducted …

In this study, less viscous 1–hexyl–3–methylimidazolium tetracyanoborate is used to capture
CO 2 from the natural gas. The obtained sweet gas was liquefied through dual mixed …

This study unfolds the advanced process configuration modification in the evolution of a dual
mixed refrigerant (DMR) process for natural gas liquefaction, followed by its optimization …