Study of hydrogen production from coal gasification in supercritical water

Qixuan Hao

doi:10.54254/2755-2721/23/20230651

Research Article

Open access

Published on 7 November 2023

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Hao,Q. (2023). Study of hydrogen production from coal gasification in supercritical water. Applied and Computational Engineering,23,189-196.

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Study of hydrogen production from coal gasification in supercritical water

Qixuan Hao *^,1,

¹ China University of Mining and Technology (Beijing)

* Author to whom correspondence should be addressed.

https://doi.org/10.54254/2755-2721/23/20230651

Abstract

The coal supercritical water gasification technology is a new technology that directly converts coal into hydrogen, with advantages such as cleanliness, high efficiency, and low cost. With the global trend towards hydrogen energy development, the coal supercritical water gasification technology has broad application prospects. Research on this technology is significant for providing a new path for China's clean energy development, promoting sustainable development in the energy field, and contributing to global emission reduction and climate change response. This article analyzes the current development status of coal gasification technology, summarizes the related categories in four aspects: raw material selection, catalysts, reactors, and heating methods, and analyzes the unique advantages of each method. Based on this, a relatively efficient hydrogen production scheme is briefly selected. In addition, the future development trend of this technology is discussed. This article may provide a reference for clean energy development and the efficient utilization of coal resources.

Keywords

coal gasification, supercritical water, hydrogen production

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Cite this article

Hao,Q. (2023). Study of hydrogen production from coal gasification in supercritical water. Applied and Computational Engineering,23,189-196.

Data availability

The datasets used and/or analyzed during the current study will be available from the authors upon reasonable request.

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About volume

Volume title: Proceedings of the 2023 International Conference on Functional Materials and Civil Engineering

Conference website: https://www.conffmce.org/

ISBN：978-1-83558-067-7(Print) / 978-1-83558-068-4(Online)

Conference date: 26 August 2023

Editor：Bhupesh Kumar

Series: Applied and Computational Engineering

Volume number: Vol.23

ISSN：2755-2721(Print) / 2755-273X(Online)

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