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浸渍法制备的固态胺CO2吸附剂吸附性能
引用本文:赵毅,李旭. 浸渍法制备的固态胺CO2吸附剂吸附性能[J]. 电力技术, 2014, 0(1): 146-150
作者姓名:赵毅  李旭
作者单位:华北电力大学环境科学与工程学院,河北保定071003
摘    要:控制和减缓化石燃料电厂的CO2排放对于缓解大气中CO2浓度的持续上升具有重要意义.作为一种燃烧后CO2捕集技术,固体CO2吸附剂具有低能耗、弱腐蚀性、易再生等优点,在CO2减排领域有着广泛的应用前景.介绍浸渍法制备的固态有机胺吸附剂对CO2的吸附性能,着重介绍载体性质、有机胺负载量、温度和烟气含水量等因素对固态胺吸附剂吸附性能的影响,并对其机理进行了分析.此外,对比了不同固态胺吸附剂在75℃下对CO2的吸附能力.分析认为,相对于其他类型的CO2固体吸附剂,固态胺吸附剂较适用于从高温湿烟气中捕集CO2.

关 键 词:温室气体减排  CO2捕集  介孔材料  吸附剂  浸渍法  吸附性能

Performance of Solid Adsorbents Impregnated with Amines for Carbon Dioxide Capture
ZHAO YiSchool of Environmental Science and Engineering,North China Electric Power University,Baoding,China LI Xu. Performance of Solid Adsorbents Impregnated with Amines for Carbon Dioxide Capture[J]. , 2014, 0(1): 146-150
Authors:ZHAO YiSchool of Environmental Science  Engineering  North China Electric Power University  Baoding  China LI Xu
Affiliation:ZHAO Yi(School of Environmental Science and Engineering, North China Electric Power University, Baoding 071003, China) LI Xu(School of Environmental Science and Engineering, North China Electric Power University, Baoding 071003, China)
Abstract:Capturing CO2 from fossil fuel power plants is of great importance in the alleviation of carbon dioxide concentration ever-increasing in the atmosphere.As a kind of post-combustion CO2 capture technology,solid adsorbentsare characterized as low energy consumption,low corrosion and favorable regeneration,which make it is promising to be widely used for CO2 capture in the future.In this paper,the adsorption performance of solid amine adsorbents on CO2 capture prepared by impregnation is introduced with the impacts of some factors emphasized,such as the substrate nature,the amine loading amount,the adsorption temperature and the moisture in the flue gas.The principle of the adsorbents is also analyzed and the adsorption capability of different adsorbents at the temperature of 75 ℃ is compared.The analysis concludes that compared to other solid CO2 adsorbents,solid amine adsorbents are more suitable for carbon dioxide capture in the flue gas at high temperatures.
Keywords:greenhouse gas emission reduction  CO2 capture  mesoporous material  adsorbent  impregnation  adsorption performance
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