摘要
有机胺捕集燃煤烟气CO_2过程中,吸收溶剂会发生降解。以探究醇胺吸收CO_2过程中可能发生的降解机理为目的,选取乙醇胺(MEA)和N-(2-羟乙基)-乙二胺(AEEA),在吸收温度40℃,解吸温度120℃条件下,研究了质量分数同为10%的MEA和AEEA循环吸收和解吸性能。结果表明,AEEA 6次循环吸收负荷和吸收速率都优于MEA,AEEA再生温度都低于MEA,但AEEA循环再生速率和再生率不如MEA。第3次循环实验过程中,AEEA产生降解物N-(2-羟乙基)-二乙烯三胺,MEA产生降解物AEEA,这两种降解产物都会提高再吸收负荷。
The absorption solvent will be degraded when coal-fired flue gas CO2is captured by organic amines.Ethanolamine(MEA)and N-(2-hydroxyethyl)ethylenediamine(AEEA)were selected for the purpose of exploring the possible degradation mechanism of alcohol amine in the process of CO2absorption.The absorption and desorption properties of MEA and AEEA with mass fraction of10%were studied under the conditions of the absorption temperature of40℃,desorption temperature of120℃.The results from six cycles showed that the absorption capacity and absorption rate of AEEA were better than those of MEA,and the regeneration temperature of AEEA was lower than that of MEA.However,the rate of cycle regeneration and regeneration rate of AEEA were not as good as that of MEA.During the third cycle of the experiment,AEEA produced the degradation product N-(2-hydroxyethyl)-diethylene triamine,MEA produced the degradation product AEEA,both of which improved the reabsorption load.
作者
陆诗建
耿春香
李世霞
李欣泽
赵东亚
朱全民
Lu Shijian;Geng Chunxiang;Li Shixia;Li Xinze;Zhao Dongya;Zhu Quanmin(China University of Petroleum(East China), Qingdao 266580, China;SINOPEC Energy and Environmental Engineering Co Ltd, Dongying 257026, China)
出处
《化学反应工程与工艺》
CAS
CSCD
北大核心
2017年第4期364-372,共9页
Chemical Reaction Engineering and Technology
关键词
二氧化碳捕集
循环实验
降解
羟乙基乙二胺
单乙醇胺
CO2 capture
cyclic experiment
degradation
N-(2-hydroxyethyl) ethylenediamine
ethanolamine
作者简介
陆诗建(1984—),男,工程师。E-mail: lushijian88@163.com。
