Thermodynamic analysis of solar-based photocatalytic hydrogen sulphide dissociation for hydrogen production |
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| Authors: | R.O. Shamim I. Dincer G. Naterer |
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| Affiliation: | 1. Faculty of Engineering and Applied Science, University of Ontario Institute of Technology, 2000 Simcoe Street North, Oshawa, Ontario L1H 7K4, Canada;2. Faculty of Engineering and Applied Science, Memorial University of Newfoundland, St. John''s, Newfoundland A1C 5S7, Canada |
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| Abstract: | The dissociation of gaseous hydrogen sulphide (H2S) into its components is an energy intensive process. The process is studied in this paper with respect to the thermodynamic limits. The band gap of the catalyst and the nature of the solar radiation limit the proportion of incoming radiation that may be used for the reaction. The intensity of the incoming radiation and the reactor temperature are varied and the performance is studied. The exergy efficiency is determined as a function of the quantum efficiency of the photochemical process, and the catalyst band gap. It is shown that an optimum case exergy efficiency of up to 28% can be achieved for the process. With the current status of technology, an exergy efficiency value in the region of 0.4–1% is calculated, with a short-term improvement potential of up to 10%. Hydrogen sulfide has high energy content, but is not widely used due to its impact on environmental pollution. The proposed process in this paper is attractive as it allows that energy to be utilized, while degrading the highly toxic gas into less harmful products. |
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| Keywords: | Hydrogen Hydrogen sulphide Photocatalysis Solar energy Exergy Efficiency |
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