Nabila Aprianti , Muhammad Faizal , Muhammad Said , Subriyer Nasir
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引用次数: 0
摘要
利用吸附强化气化工艺提高精煤废料合成气的质量是生产 H2 的一项新技术。在固定床气化炉中测定了 CaO 对精煤蒸汽气化过程中 CO2 吸收和 H2 增加的影响。采用膨润土和 CaO 作为催化剂和吸收剂,在 650 °C 下进行蒸汽气化过程。蒸汽将合成气中的 H2 浓度提高到 58 Vol%。加入 CaO 后,原位吸收 CO2 的效果更好。当 Ca/C 比 2 为 78.33 % 时,二氧化碳的吸收率最大。当 Ca 与碳摩尔比 (Ca/C) 为 1.5,蒸汽与原料比 (S/F) 为 1.5 时,吸收二氧化碳后合成气中的 H2 含量迅速增至 75.80 Vol%。CaO 对低热值 (LHV) 或冷气效率 (CGE) 的影响不大,结果分别为 12 MJ/Nm3 和 44.53 %。在蒸汽和 CaO 的影响下,主要的水煤气转移反应将 H2/CO 提高到 9.11,从而使本研究中的合成气适用于费托合成。
Sorption-enhanced steam gasification of fine coal waste for fuel producing
Improving the quality of syngas from fine coal waste using the sorption-enhanced gasification process is a novel technology in the production of H2. The effect of CaO on CO2 absorption and H2 increase in the steam fine coal gasification process was determined in a fixed bed gasifier. The steam gasification process took place at 650 °C using bentonite and CaO as catalysts and absorbents. Steam increased the H2 concentration in the syngas to 58 vol%. In-situ CO2 absorption is more effective with the addition of CaO. The maximum percentage of CO2 was absorbed when the Ca/C ratio 2 was 78.33 %. The H2 content in the syngas after the CO2 was absorbed increased rapidly to 75.80 vol% at a Ca-to-carbon-mole ratio (Ca/C) of 1.5 and a steam-to-feedstock ratio (S/F) of 1.5. CaO did not produce significant results for low heating value (LHV) or cold gas efficiency (CGE), with results of 12 MJ/Nm3 and 44.53 %. The dominant water gas shift reaction due to the influence of steam and CaO increased H2/CO up to 9.11, which made the syngas from this work suitable for Fischer–Tropsch synthesis.
期刊介绍:
Journal of King Saud University - Engineering Sciences (JKSUES) is a peer-reviewed journal published quarterly. It is hosted and published by Elsevier B.V. on behalf of King Saud University. JKSUES is devoted to a wide range of sub-fields in the Engineering Sciences and JKSUES welcome articles of interdisciplinary nature.
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