化工学报
化工學報
화공학보
JOURNAL OF CHEMICAL INDUSY AND ENGINEERING (CHINA)
2015年
6期
2123-2130
,共8页
张宇%高建民%何明月%冯冬冬%钱娟%杜谦%杨建国%吴少华
張宇%高建民%何明月%馮鼕鼕%錢娟%杜謙%楊建國%吳少華
장우%고건민%하명월%풍동동%전연%두겸%양건국%오소화
二氧化碳捕集%溶析法%再生%结晶%鼓泡反应器
二氧化碳捕集%溶析法%再生%結晶%鼓泡反應器
이양화탄포집%용석법%재생%결정%고포반응기
CO2 capture%solventing-out%regeneration%crystallization%bubbling reactor
针对目前氨法二氧化碳捕集技术中存在的氨逃逸、再生能耗高、反应后期吸收率低等问题,提出了两种基于溶析法强化结晶的工艺,分别为混合吸收剂法以及溶析法强化低碳化度氨水结晶工艺。低碳化度氨水结晶可以使吸收过程维持在较高的吸收速率,采用晶体产物解析既可以实现再生能耗的降低又可以解除再生能耗对于氨水浓度的限制,因此可选低浓度氨水作为吸收剂,在一定程度上解决当前氨法脱碳中存在的问题。两种工艺均采用以晶体产物再生代替富液循环的再生方法,大大降低再生过程中的能耗。两种新工艺均是采用半连续鼓泡反应系统进行的基础研究,并从工艺路线、吸收效率、结晶收率、晶体产物特性等方面进行对比。
針對目前氨法二氧化碳捕集技術中存在的氨逃逸、再生能耗高、反應後期吸收率低等問題,提齣瞭兩種基于溶析法彊化結晶的工藝,分彆為混閤吸收劑法以及溶析法彊化低碳化度氨水結晶工藝。低碳化度氨水結晶可以使吸收過程維持在較高的吸收速率,採用晶體產物解析既可以實現再生能耗的降低又可以解除再生能耗對于氨水濃度的限製,因此可選低濃度氨水作為吸收劑,在一定程度上解決噹前氨法脫碳中存在的問題。兩種工藝均採用以晶體產物再生代替富液循環的再生方法,大大降低再生過程中的能耗。兩種新工藝均是採用半連續鼓泡反應繫統進行的基礎研究,併從工藝路線、吸收效率、結晶收率、晶體產物特性等方麵進行對比。
침대목전안법이양화탄포집기술중존재적안도일、재생능모고、반응후기흡수솔저등문제,제출료량충기우용석법강화결정적공예,분별위혼합흡수제법이급용석법강화저탄화도안수결정공예。저탄화도안수결정가이사흡수과정유지재교고적흡수속솔,채용정체산물해석기가이실현재생능모적강저우가이해제재생능모대우안수농도적한제,인차가선저농도안수작위흡수제,재일정정도상해결당전안법탈탄중존재적문제。량충공예균채용이정체산물재생대체부액순배적재생방법,대대강저재생과정중적능모。량충신공예균시채용반련속고포반응계통진행적기출연구,병종공예로선、흡수효솔、결정수솔、정체산물특성등방면진행대비。
In response of such problems as ammonia escape, high regeneration energy, low absorption rate in the late stage of carbon capture by ammonia, this paper presents two kinds of reinforced crystallization technologies based on solventing-out, respectively called mixed absorbent process and reinforced crystallization of carbonized aqueous ammonia. Reinforcing crystallization of aqueous ammonia of low carbonization degree can maintain average absorption rate at a high level and regeneration by desorbing crystal product can save regeneration energy. Ammonia of low carbonization degree is chosen as absorbent, which can solve the ammonia escape problem to some extent. In the two kinds of processes, the common point is that regeneration by desorbing crystal product replaces recycling of carbonized aqueous ammonia and consequently saves regeneration energy. These two new processes all adopt semi-continuous bubbling reactor, and their process route, absorption rate, crystallization yield, characteristics of crystal product are compared.
