Hydrogen production via thermochemical water splitting

Roeb, Martin; Agrafiotis, Christos; Sattler, Christian

doi:10.1016/b978-1-78242-361-4.00011-x

Cited by 5 publications

(2 citation statements)

References 99 publications

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“…(c) Thermochemical processes (600 • C-900 • C) e.g. sulphur-iodine cycle: various fission studies exist that are investigating the viability of this process [125,126]. In Elder and Allen's study efficiencies of ∼50%…”

Section: High-temperature Applications 241 Hydrogenmentioning

confidence: 99%

The commercialisation of fusion for the energy market: a review of socio-economic studies

et al. 2022

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Progress in the development of fusion energy has gained momentum in recent years. However questions remain across key subject areas that will affect the path to commercial fusion energy. The purpose of this review is to expose socio-economic areas that need further research, and from this assist in making recommendations to the fusion community, (and policy makers and regulators) in order to redirect and orient fusion for commercialisation: When commercialised, what form does it take? Where does it fit into a future energy system? Compared to other technologies, how much will fusion cost? Why do it? When is it likely that fusion reaches commercialisation? Investigations that have sought to answer these questions carry looming uncertainty, mainly stemming from the technoeconomics of emerging fusion technology in the private-sector, and due to the potential for applications outside of electricity generation coming into consideration. Such topics covered include hydrogen, desalination, and process-heat applications.

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Section: High-temperature Applications 241 Hydrogenmentioning

confidence: 99%

The commercialisation of fusion for the energy market: a review of socio-economic studies

et al. 2022

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“…Several hydrogen-generating technologies have been in both commercial and research stages and they are mainly classified into three groups with respect to the source of hydrogen [8][9][10]. The most mature and commercially available technologies involve the conversion of conventional fossil fuels into hydrogen gas through chemical reactions.…”

Section: Hydrogen Production Technologiesmentioning

confidence: 99%