水泥工业富氧燃烧条件下钙基捕集剂的碳酸化反应动力学  

Kinetics of Carbonation Reaction of Calcium-based Sorbents under Oxygen-enriched Combustion in Cement Industry

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作  者:段永华[1] 李辉[1,2] 张乐乐[1] 范潇[1] 闵永刚 

机构地区:[1]西安建筑科技大学,西安710055 [2]陕西循环经济工程技术院,西安710055

出  处:《硅酸盐学报》2014年第8期1042-1046,共5页Journal of The Chinese Ceramic Society

基  金:教育部高等学校博士学科点专项科研基金项目(20116120110013);国家自然科学基金资助项目(52174159);陕西省重大科技创新项目(2012zk06-2)

摘  要:以天然石灰石煅烧制备的钙基捕集剂循环煅烧/碳酸化协同捕集水泥富氧燃烧工业烟气中的CO2为研究背景,采用热重分析仪对钙基捕集剂的碳酸化反应动力学进行研究。采用改进的双外推法对反应动力学参数进行计算。结果表明:化学控制阶段的反应模型是随机成核和随后生长模型,得到了最概然机理函数,反应级数为1/2;扩散控制阶段的反应模型是相边界反应收缩球模型,得到了最概然机理函数,反应级数为1/3;当气氛中CO2浓度由50%增加至80%时,化学控制和扩散控制两阶段的活化能分别由147.58和215.03kJ/mol降低至130.06和170.10kJ/mol。The kinetics of carbonation reaction of calcium-based sorbents prepared from calcined limestone in a cyclic process of calcination and carbonation under the condition of oxygen-enriched combustion to capture COz from cement industrial flue gases was investigated v/a thermogravimetric analysis. The kinetic parameters of reaction were calculated by an improved double ex- trapolation method. The results show that the reaction model is a "randomly nucleation" model and a "followed growth" model as well. The reaction order is 1/2 in chemical control phase in the most probable mechanism function. Moreover, in the diffu- sion controlled phase, the reaction model is a "spherical interface contraction reaction" model, and the reaction order is 1/3 in the most probable mechanism function. When CO2 concentration increases from 50% to 80% in the atmosphere, the required reaction activation energy E decreases from 147.58 kJ/mol to 130.06 kJ/mol in the chemical controlled phase, and 215.03 kJ/ tool to 170. 10 kJ/mol in the diffusion controlled phase, respectively.

关 键 词:钙基捕集剂 富氧燃烧技术 水泥工业 碳酸化反应 反应动力学 双外推法 

分 类 号:TQ110.3[化学工程—无机化工]

 

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