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Literature DB >> 17836063

Hydrogen- and oxygen from water.

Abstract

The limitations of thermochemical energy storage devices are the limitations of Carnot devices. Entropy production entailed in product separation further limits the efficiency of thermochemical processes. Thus, high upper temperatures and few reaction steps are desirable. In this article, the one-step effusional separation of water into hydrogen and oxygen is considered. Membrane materials, design, and fabrication techniques are suggested. A parametric analysis of the process suggests that the idea is a tantalizing possibility.

Entities: Chemical

Year: 1977 PMID： 17836063 DOI： 10.1126/science.197.4308.1050

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

5 in total

1. Low-temperature, manganese oxide-based, thermochemical water splitting cycle.

Authors: Bingjun Xu; Yashodhan Bhawe; Mark E Davis
Journal: Proc Natl Acad Sci U S A Date: 2012-05-30 Impact factor: 11.205

2. Solar-Driven Thermochemical Splitting of CO₂ and In Situ Separation of CO and O₂ across a Ceria Redox Membrane Reactor.

Authors: Maria Tou; Ronald Michalsky; Aldo Steinfeld
Journal: Joule Date: 2017-09-06

3. Synergizing Photo-Thermal H₂ and Photovoltaics into a Concentrated Sunlight Use.

Authors: Sanli Tang; Xueli Xing; Wei Yu; Jie Sun; Yimin Xuan; Lu Wang; Yangfan Xu; Hui Hong; Hongguang Jin
Journal: iScience Date: 2020-03-25

4. Compositional and operational impacts on the thermochemical reduction of CO₂ to CO by iron oxide/yttria-stabilized zirconia.

Authors: Eric N Coker; Andrea Ambrosini; James E Miller
Journal: RSC Adv Date: 2021-01-05 Impact factor: 3.361

Review 5. Review of the Two-Step H₂O/CO₂-Splitting Solar Thermochemical Cycle Based on Zn/ZnO Redox Reactions.

Authors: Peter G Loutzenhiser; Anton Meier; Aldo Steinfeld
Journal: Materials (Basel) Date: 2010-11-12 Impact factor: 3.623