太阳能制氢混合硫循环工艺综述

3rd International Symposium on Environmental Friendly Energies and Applications (EFEA) Pub Date : 2014-11-01 DOI:10.1109/EFEA.2014.7059999

F. Lassouane, S. Menia, A. Khellaf

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引用次数: 2

摘要

混合硫(HyS)循环或西屋循环是全面太阳能制氢的主要候选方案之一。这个循环是最具吸引力和最简单的热化学过程之一，因为它只包括两个整体反应步骤，并且只有流体反应物。它由800-1200℃的吸热高温步骤和80℃左右的微放热电化学反应组成。在这个过程中，水通过辅助物质间接解离，这些辅助物质被循环利用。本文的目的是探讨在硫酸分解过程中引入太阳能的可能性。这项研究仅限于阿尔及利亚的情况。第一部分简要介绍了热化学循环分解水的概念。然后介绍了杂化硫热化学循环的主要概念。最后，介绍了阿尔及利亚太阳能的潜力，并讨论了利用HyS循环制氢的潜力。

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An overview of the hybrid sulfur cycle process for solar hydrogen production

Hybrid sulfur (HyS) cycle or Westinghouse cycle is among the main candidates for full-scale solar hydrogen production. This cycle is one of the most attractive and simplest thermochemical processes, because it comprises only two global reaction steps and has only fluid reactants. It consists of an endothermal high temperature step of 800-1200 °C and slightly exothermal electrochemical reaction operating at about 80 °C. In this process, the water is dissociated indirectly by means of auxiliary substances, which are recycled. The aim of this work is discuss the possible introduction of solar source into the sulfuric acid decomposition. The study is limited to the case of Algeria. In the first part, the concept of thermochemical cycle to split water is briefly reported. The main concept of the hybrid sulfur thermochemical cycle are then described. Finally, some information about the potential of solar Algerian source are provided and the potential of hydrogen production using HyS cycle discussed.

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3rd International Symposium on Environmental Friendly Energies and Applications (EFEA)

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