环境工程学报
環境工程學報
배경공정학보
CHINESE JOURNAL OF ENVIRONMENTAL ENGINEERING
2009年
12期
2138-2142
,共5页
许燕滨%邓映霞%黄绍松%孙水裕
許燕濱%鄧映霞%黃紹鬆%孫水裕
허연빈%산영하%황소송%손수유
原生质球Cr(V1)%生物吸附%生物还原
原生質毬Cr(V1)%生物吸附%生物還原
원생질구Cr(V1)%생물흡부%생물환원
sphaeroplast%Cr(Ⅵ)%biosorption%bioreduction
利用优势菌生物系统的还原吸附作用去除水环境中的Cr(VI)是一种有前景的处理方法.为了进一步探究优势菌Brevibacillus sp.还原去除Cr(VI)的机理,利用正交试验得到酶法制备优势菌原生质球的最佳条件,分析原生质球对cr(V1)的还原吸附效果.结果表明:酶解最佳条件为酶浓度0.1 mg/L,酶解时间30 min,酶解温度30℃.高渗环境下的优势菌原生质球对Cr(VI)和总Cr的去除效率分别为75.90%和63.82%,均高于完整菌株,而相对低渗环境下的原生质球,由于质膜破裂,对Cr(VI)和总Cr的还原吸附去除效率最低.结合Cr(VI)去除率高于总Cr去除率的现象可以推测,可再生原生质球对Cr(V1)的还原吸附过程是一个与其生理活性(透膜机制和代谢活性)相关的过程,且Cr(VI)的还原与吸附是两个联系非常紧密的反应.研究成果为进一步提高Cr(VI)还原去除效率奠定了理论基础.
利用優勢菌生物繫統的還原吸附作用去除水環境中的Cr(VI)是一種有前景的處理方法.為瞭進一步探究優勢菌Brevibacillus sp.還原去除Cr(VI)的機理,利用正交試驗得到酶法製備優勢菌原生質毬的最佳條件,分析原生質毬對cr(V1)的還原吸附效果.結果錶明:酶解最佳條件為酶濃度0.1 mg/L,酶解時間30 min,酶解溫度30℃.高滲環境下的優勢菌原生質毬對Cr(VI)和總Cr的去除效率分彆為75.90%和63.82%,均高于完整菌株,而相對低滲環境下的原生質毬,由于質膜破裂,對Cr(VI)和總Cr的還原吸附去除效率最低.結閤Cr(VI)去除率高于總Cr去除率的現象可以推測,可再生原生質毬對Cr(V1)的還原吸附過程是一箇與其生理活性(透膜機製和代謝活性)相關的過程,且Cr(VI)的還原與吸附是兩箇聯繫非常緊密的反應.研究成果為進一步提高Cr(VI)還原去除效率奠定瞭理論基礎.
이용우세균생물계통적환원흡부작용거제수배경중적Cr(VI)시일충유전경적처리방법.위료진일보탐구우세균Brevibacillus sp.환원거제Cr(VI)적궤리,이용정교시험득도매법제비우세균원생질구적최가조건,분석원생질구대cr(V1)적환원흡부효과.결과표명:매해최가조건위매농도0.1 mg/L,매해시간30 min,매해온도30℃.고삼배경하적우세균원생질구대Cr(VI)화총Cr적거제효솔분별위75.90%화63.82%,균고우완정균주,이상대저삼배경하적원생질구,유우질막파렬,대Cr(VI)화총Cr적환원흡부거제효솔최저.결합Cr(VI)거제솔고우총Cr거제솔적현상가이추측,가재생원생질구대Cr(V1)적환원흡부과정시일개여기생리활성(투막궤제화대사활성)상관적과정,차Cr(VI)적환원여흡부시량개련계비상긴밀적반응.연구성과위진일보제고Cr(VI)환원거제효솔전정료이론기출.
Cr(Ⅵ) removal by the reduction and absorption of the predominated strains-containing bio-sys-tern is one of the most prospective methods. Based on the screening and optimizing of the predominated strain-Brevibacillus sp.,the sphaeroplast was obtained by the enzymic method and the tests on the Cr(Ⅵ) reduction-absorption contribution of the predominated strain's sphaeroplast illuminated that the Cr(Ⅵ) and total Cr remov-al rates of the sphaeroplasts in the liquid with the high osmotic pressure were 75.90% and 63.82%,respective-ly,which were exceeded those of the intact strains,and the removal rates of the sphaeroplasts in the liquid with the relative low osmotic pressure were the least for the break of the plasma membrane. Which may conclude that the process of Cr(Ⅵ) reduction and adsorption by the regenerable sphaeroplasts is relative to the permeation principle and metabolic activity of the plasma membrane,combined with the phenomenon that the removal rates of Cr(Ⅵ) are more than those of the total Cr. The results will be benefit for the further study on the application of Cr(Ⅵ) bio-reduction and removal by the predomated strains.