Yongcheun Kuah scite author profile

Efficient scrubbing of mercury vapour from natural gas streams has been demonstrated both in the laboratory and on an industrial scale, using chlorocuprate(II) ionic liquids impregnated on high surface area porous solid supports, resulting in the effective removal of mercury vapour from natural gas streams. This material has been commercialised for use within the petroleum gas production industry, and has currently been running continuously for three years on a natural gas plant in Malaysia. Here we report on the chemistry underlying this process, and demonstrate the transfer of this technology from gram to ton scale.

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Carbon dioxide uptake from natural gas by binary ionic liquid–water mixtures

Anderson

Atkins

Estager

et al. 2015

Green Chem.

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Carbon dioxide solubility in a set of carboxylate ionic liquids formulated with stoicheiometric amounts of water is found to be significantly higher than for other ionic liquids previously reported. This is due to synergistic chemical and physical absorption. The formulated ionic liquid/water mixtures show greatly enhanced carbon dioxide solubility relative to both anhydrous ionic liquids and aqueous ionic liquid solutions, and are competitive with commercial chemical absorbers, such as activated N-methyldiethanolamine or monoethanolamine. † CCDC 1055905 and 1055906. For crystallographic data in CIF or other electronic format see

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Correction: Carbon dioxide uptake from natural gas by binary ionic liquid–water mixtures

et al. 2015

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Yongcheun Kuah

An ionic liquid process for mercury removal from natural gas

Carbon dioxide uptake from natural gas by binary ionic liquid–water mixtures

Correction: Carbon dioxide uptake from natural gas by binary ionic liquid–water mixtures

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