Synthesis of Fe/CaO active sorbent for CO₂ absorption and tars removal in biomass gasification

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• 作者：Ingrid  ; Zamboni ; Claire  ; Courson  ; ;   ; ^{claire.courson@unistra.fr} ; Alain  ; Kiennemann
• 关键词：CaO ; Fe/CaO active sorbents ; Iron species formation ; CO₂ absorption capacity
• 刊名：Catalysis Today
• 出版年：2011
• 出版时间：1 November 2011
• 年：2011
• 卷：176
• 期：1
• 页码：197-201
• 全文大小：535 K

文摘

CO₂ capture is a strategy to reduce gas emissions from hydrogen production process. Among different materials, CaO has been used for CO₂ absorption principally for its abundance and low toxicity giving economical advantage. In this work different Fe/CaO sorbents were prepared using three CaO precursors including CaO, CaCO₃ and Ca(CH₃COO)₂¡¤H₂O and two iron salts, Fe(CH₃COO)₂ and Fe(NO₃)₃¡¤9H₂O. The effect of calcination temperature, CaO precursor, iron salt, and preparation conditions on the physicochemical properties and CO₂ absorption capacity were discussed. To characterize the sorbents, various techniques such as XRD, BET and TPR and absorption capacity tests were performed.

The most appropriated calcination temperature to obtain CaO phase is 750 ¡ãC. The higher BET surface area, observed for sorbents prepared from calcium acetate, is correlated to the higher CO₂ absorption capacity. Iron (II) acetate promotes the formation of Fe₂O₃ phase and iron (III) nitrate leads to the formation of Ca₂Fe₂O₅. The mechanical mixture leads to the formation of Fe₂O₃ while sol¨Cgel and impregnation methods promote the formation of Ca₂Fe₂O₅.

Finally the preparation from mechanical mixture of calcium and iron (II) acetates will be the best compromise between a high CO₂ absorption capacity and the presence of Fe⁰ efficient for the tars reforming.