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国家自然科学基金(50376010)

作品数:3 被引量:12H指数:2
相关作者:肖军沈来宏向文国狄藤藤郑敏更多>>
相关机构:东南大学更多>>
发文基金:国家自然科学基金国家重点基础研究发展计划江苏省自然科学基金更多>>
相关领域:化学工程动力工程及工程热物理更多>>

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Chemical looping combustion of coal in interconnected fluidized beds被引量:7
2007年
Chemical looping combustion is the indirect combustion by use of oxygen carrier. It can be used for CO2 capture in power generating processes. In this paper, chemical looping combustion of coal in interconnected fluidized beds with inherent separation of CO2 is proposed. It consists of a high velocity fluidized bed as an air reactor in which oxygen carrier is oxidized, a cyclone, and a bubbling fluidized bed as a fuel reactor in which oxygen carrier is reduced by direct and indirect reactions with coal. The air reactor is connected to the fuel reactor through the cyclone. To raise the high carbon conversion efficiency and separate oxygen carrier particle from ash, coal slurry instead of coal particle is introduced into the bottom of the bubbling fluidized bed. Coal gasification and the reduction of oxygen carrier with the water gas take place simultaneously in the fuel reactor. The flue gas from the fuel reactor is CO2 and water. Almost pure CO2 could be obtained after the condensation of water. The reduced oxygen carrier is then returned back to the air reactor, where it is oxidized with air. Thermodynamics analysis indicates that NiO/Ni oxygen carrier is the optimal one for chemical looping combustion of coal. Simulation of the processes for chemical looping combustion of coal, including coal gasification and reduction of oxygen carrier, is carried out with Aspen Plus software. The effects of air reactor temperature, fuel reactor temperature, and ratio of water to coal on the composition of fuel gas, recirculation of oxygen carrier particles, etc., are discussed. Some useful results are achieved. The suitable temperature of air reactor should be between 1050–1150°C and the optimal temperature of the fuel reactor be between 900–950°C.
SHEN LaiHongZHENG MinXIAO JunZHANG HuiXIAO Rui
关键词:CHEMICALLOOPINGCOMBUSTIONCOALBEDSSEPARATION
新型煤气化间接燃烧联合循环研究被引量:4
2004年
以煤为燃料,通过气化和间接燃烧等技术,实现燃煤发电的CO2分离。水煤浆增压后,利用间接燃烧过程热源气化。以金属氧化物为载氧体,实现间接燃烧(CLC),即载氧体与煤气的“燃烧”和载氧体与空气的再生,“燃烧” 气相产物为H2O(汽)+CO2,冷凝水后,可分离出CO2。结合燃气蒸汽联合循环技术,构成新型煤气化间接燃烧联合循环,实现燃煤高效和CO2分离。文中通过数学建模方法,对系统特性进行仿真计算,预测煤气成分,研究载氧体还原比率、循环倍率、煤气成分等参数对间接燃烧性能的影响,为间接燃烧技术的实验研究和系统概念设计提供基础数据。
向文国狄藤藤肖军沈来宏
关键词:煤气化
煤气化置换燃烧分离CO_2模拟分析与研究被引量:1
2006年
基于Aspenplus软件,根据Gibbs自由能最小化原理对煤气化置换燃烧过程进行热力学平衡分析。对徐州烟煤以NiO作为载氧体,研究在常压时燃料反应器温度、水煤比对燃料反应器气体产率和载氧体循环倍率的影响。结果表明:燃料反应器温度的降低有利于煤气化产物的氧化;水蒸气用量较少时可得到较高浓度的CO2;燃料反应器温度的降低和水蒸气用量的减少将减少载氧体循环倍率。
郑敏沈来宏肖军
关键词:CO2分离流化床煤气化
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