通过水热气化从藻类生物质中生产氢气。

Hydrogen production from algal biomass via steam gasification.

机构信息

Faculty of Science, Department of Chemistry, Izmir Institute of Technology, 35430 Urla, Izmir, Turkey.

Department of Environmental Chemistry and Materials, Okayama University, 3-1-1 Tsushima Naka, Okayama 700-8530, Japan.

出版信息

Bioresour Technol. 2014 Aug;166:24-30. doi: 10.1016/j.biortech.2014.04.096. Epub 2014 May 5.

DOI:10.1016/j.biortech.2014.04.096

PMID:24880809

Abstract

Algal biomasses were tested as feedstock for steam gasification in a dual-bed microreactor in a two-stage process. Gasification experiments were carried out in absence and presence of catalyst. The catalysts used were 10% Fe₂O₃-90% CeO₂ and red mud (activated and natural forms). Effects of catalysts on tar formation and gasification efficiencies were comparatively investigated. It was observed that the characteristic of algae gasification was dependent on its components and the catalysts used. The main role of the catalyst was reforming of the tar derived from algae pyrolysis, besides enhancing water gas shift reaction. The tar reduction levels were in the range of 80-100% for seaweeds and of 53-70% for microalgae. Fe₂O₃-CeO₂ was found to be the most effective catalyst. The maximum hydrogen yields obtained were 1036 cc/g algae for Fucus serratus, 937 cc/g algae for Laminaria digitata and 413 cc/g algae for Nannochloropsis oculata.

摘要

藻类生物质被测试作为进料在双床微反应器中进行蒸汽气化的原料在一个两阶段的过程。在不存在和存在催化剂的情况下进行了气化实验。所使用的催化剂为 10%Fe₂O₃-90%CeO₂和赤泥（活化和天然形式）。比较研究了催化剂对焦油形成和气化效率的影响。结果表明，藻类气化的特性取决于其成分和所用的催化剂。催化剂的主要作用是对藻类热解产生的焦油进行重整，同时增强水汽变换反应。海藻的焦油去除率范围为 80-100%，而微藻的焦油去除率范围为 53-70%。Fe₂O₃-CeO₂被发现是最有效的催化剂。获得的最大氢气产率为 1036 cc/g 海藻的龙须菜、937 cc/g 海藻的海带和 413 cc/g 海藻的眼斑拟微绿球藻。

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通过水热气化从藻类生物质中生产氢气。

Hydrogen production from algal biomass via steam gasification.

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