A novel cost-effective silica membrane-based process for helium extraction from natural gas
Peer reviewed, Journal article
Accepted version
Åpne
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https://hdl.handle.net/11250/2648519Utgivelsesdato
2019Metadata
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Originalversjon
Computers and Chemical Engineering. 2019, 121 633-638. 10.1016/j.compchemeng.2018.12.013Sammendrag
Natural gas reserves with 0.3–2 mol% helium are considered as the only viable source for this noble gas. Currently, cryogenic separation is used to extract helium, but it is energy-intensive. While membrane-based separation is a promising alternative, it is still not considered economical. Even for an inorganic/silica membrane with relatively high selectivity and permeance, a multi-stage membrane system with inter-stage compression is required, which necessitates high CAPEX and OPEX. This study proposes a novel process to enhance the selectivity and permeance of an inorganic/silica membrane system to eliminate the costly inter-stage compression. A 16–24% reduction in the CAPEX and 23–57% in the OPEX are achievable for a natural gas feed with 3–5 mol% helium. In contrast, for a 2 mol% helium feed, the OPEX increases by 34%. However, a 30% decrease in the capital cost outweighs the OPEX increase to make the new process more profitable.