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研究报告

朱轶林,唐强,孙冠中,陈艳容,宋赟,卞海波.固定化碳酸酐酶在立式反应器催化吸收模拟烟气中CO₂的实验研究[J].环境科学学报,2016,36(3):1057-1063

Catalytic absorption of CO₂ in simulated flue gas by immobilized carbonic anhydrase in vertical reactor

摘要：利用海藻酸钠包埋和戊二醛交联法固定碳酸酐酶,并在立式反应器进行了固定化酶吸收CO₂的特性实验.实验结果表明:固定化酶的酶活力回收率是56.3%;固定化酶显著加快模拟烟气中CO₂的吸收;载酶量小时,气体流量是影响吸收CO₂效果的主要因素,气体流量增大,载酶量成为主要因素;气体流量增大,载酶量对反应终止pH的影响减小;载酶量增大,气体流量对反应终止pH的影响减小;气体流量增大,CO₂吸收效率下降,载酶量提高,CO₂吸收效率上升;气体流量为650 mL·min^-1和载酶量为1 mg时,固定化酶催化吸收CO₂效果显著;固定化酶具有较高的操作稳定性;SEM显示反应后的固定化酶表面出现大量形状不规则的小孔,空隙结构变得发达.

Abstract：The characteristic experiment in immobilizing carbonic anhydrase (CA) by embedment with sodium alginate and glutaraldehyde cross-linking method was conducted in vertical reactor. The results show that the activity recovery of immobilized CA is 56.3%. The immobilized CA could remarkably speed up the absorption of CO₂ from simulated flue gas. The gas flow is the main factor affecting CO₂ absorption with small enzyme loading while the enzyme loading becomes the main factor when gas flow increases. The load of enzyme has a decreasing influence on the pH of terminal reaction as the gas flow increases, and the gas flow also has a decreasing influence on the pH of terminal reaction when the enzyme load increases. Besides, the efficiency of CO₂ absorption declines with the increase of the gas flow while rises with the increase of the enzyme load. The catalytic absorption of CO₂ by immobilized CA is remarkable with the gas flow of 650 mL·min^-1 and the enzyme load of 1 mg. Furthermore, the immobilization of CA enhances operation stability. The surface of immobilized CA exhibits a large number of irregular shapes of holes with mature space structure through scanning electron microscope (SEM) observation.

Key words：carbonic anhydrase immobilization vertical reactor biocatalysis CO₂ absorption