@article{scholars16137, journal = {Environmental Pollution}, publisher = {Elsevier Ltd}, title = {A state-of-the-art review on capture and separation of hazardous hydrogen sulfide (H2S): Recent advances, challenges and outlook}, note = {cited By 29}, volume = {314}, year = {2022}, doi = {10.1016/j.envpol.2022.120219}, issn = {02697491}, author = {Chan, Y. H. and Lock, S. S. M. and Wong, M. K. and Yiin, C. L. and Loy, A. C. M. and Cheah, K. W. and Chai, S. Y. W. and Li, C. and How, B. S. and Chin, B. L. F. and Chan, Z. P. and Lam, S. S.}, abstract = {Hydrogen sulfide (H2S) is a flammable, corrosive and lethal gas even at low concentrations (ppm levels). Hence, the capture and removal of H2S from various emitting sources (such as oil and gas processing facilities, natural emissions, sewage treatment plants, landfills and other industrial plants) is necessary to prevent and mitigate its adverse effects on human (causing respiratory failure and asphyxiation), environment (creating highly flammable and explosive environment), and facilities (resulting in corrosion of industrial equipment and pipelines). In this review, the state-of-the-art technologies for H2S capture and removal are reviewed and discussed. In particular, the recent technologies for H2S removal such as membrane, adsorption, absorption and membrane contactor are extensively reviewed. To date, adsorption using metal oxide-based sorbents is by far the most established technology in commercial scale for the fine removal of H2S, while solvent absorption is also industrially matured for bulk removal of CO2 and H2S simultaneously. In addition, the strengths, limitations, technological gaps and way forward for each technology are also outlined. Furthermore, the comparison of established carbon capture technologies in simultaneous and selective removal of H2S{\^a}??CO2 is also comprehensively discussed and presented. It was found that the existing carbon capture technologies are not adequate for the selective removal of H2S from CO2 due to their similar characteristics, and thus extensive research is still needed in this area. {\^A}{\copyright} 2022 Elsevier Ltd}, keywords = {Carbon capture; Corrosion prevention; Gas emissions; Gas plants; Hydrogen sulfide; Industrial emissions; Metals; Sewage treatment plants; Sulfur determination, Capture; Emitting sources; Feasibility; Gas processing; Low concentrations; Oil and gas; Oil processing; Performance; Selective removal; State-of-the art reviews, Carbon dioxide, carbon dioxide; hydrogen sulfide; metal oxide; solvent; carbon; carbon dioxide; caustic agent; hydrogen sulfide, carbon dioxide; feasibility study; hydrogen sulfide; performance assessment; pollutant removal; separation, adsorption; carbon capture; chemical analysis; chemical parameters; controlled study; feasibility study; hazardous waste; heavy metal removal; membrane potential; process technology; Review; human; sewage, Carbon; Carbon Dioxide; Caustics; Humans; Hydrogen Sulfide; Sewage; Solvents}, url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-85138806858&doi=10.1016\%2fj.envpol.2022.120219&partnerID=40&md5=3c33fefe9643fddebb0017644300750d} }