Research and Reviews: Journal of Mechanics and Machines

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The advantages of operational ease, economic viability, low maintenance, low energy consumption, small size, and dependable performance, gas separation using a membrane is an effective alternative to traditional processes. Air oxygen enrichment, carbon dioxide recovery, volatile organic compound recovery, air dehumidification, helium recovery from natural gas, natural gas sweetening, landfill gas upgrading, nitrogen production, hydrogen recovery from refinery and syngas ratio adjustment, and ammonia synthesis purge gases all make use of polymeric membranes. The creation of high-permeability membrane materials has required a great deal of effort. For membrane gas separations to be used effectively and affordably, complete operating conditions and process design are also essential. Finding a compelling numerical procedure with an ideal plan and working environment is testing.

Cite as

S.J. Mulani, & A.D. Awasare. (2023). Mathematical Modelling for Gas Separation Membrane: Review. Research and Reviews: Journal of Mechanics and Machines, 5(2), 1–5. https://doi.org/10.5281/zenodo.8041991