生态与农村环境学报
生態與農村環境學報
생태여농촌배경학보
JOURNAL OF ECOLOGY AND RURAL ENVIRONMENT
2010年
2期
160-166
,共7页
毛雪慧%徐明芳%刘辉%肖娜
毛雪慧%徐明芳%劉輝%肖娜
모설혜%서명방%류휘%초나
固定化%球形红假单胞菌%重金属废水%生物反应器
固定化%毬形紅假單胞菌%重金屬廢水%生物反應器
고정화%구형홍가단포균%중금속폐수%생물반응기
Rhodopseudomonas sphaeroides%immobilization%heavy metal wastewater%bioreactor
比较了4种固定化球形红假单胞菌(Rhodopseudomonas sphaeroides)处理含Cd、Cr重金属废水的效果,对固定化菌吸附Cd和Cr的工艺条件进行了优化,并通过生物反应器连续处理实际电镀废水,分析了处理后的效果.通过比较,确定了20 g·kg~(-1)沸石和20 g·L~(-1)海藻酸钠组合作为共固定材料,固定化菌对Cd和Cr的去除效果明显优于游离菌.采用正交试验优化废水处理工艺条件,结果表明,废水pH值、菌体投加量对固定化菌体的处理效果影响较大,当处理废水的pH值为6.0、菌体投加量为10.00 g·L~(-1)时,对40.00 mg·L~(-1)含Cd废水的去除率可达96. 68%.4轮吸附-解吸循环试验结果显示,固定化菌体可重复利用3次,固定化菌体在使用第3次时,Cd去除率仍可达51. 20%.在生物反应器中,用固定化菌体处理质量浓度为92. 61 mg·L~(-1)的含Cd电镀废水,3h时对Cd的去除率达到98. 80%,对含Cu、Au、Ni废水中重金属的去除率也高于90. 00%.
比較瞭4種固定化毬形紅假單胞菌(Rhodopseudomonas sphaeroides)處理含Cd、Cr重金屬廢水的效果,對固定化菌吸附Cd和Cr的工藝條件進行瞭優化,併通過生物反應器連續處理實際電鍍廢水,分析瞭處理後的效果.通過比較,確定瞭20 g·kg~(-1)沸石和20 g·L~(-1)海藻痠鈉組閤作為共固定材料,固定化菌對Cd和Cr的去除效果明顯優于遊離菌.採用正交試驗優化廢水處理工藝條件,結果錶明,廢水pH值、菌體投加量對固定化菌體的處理效果影響較大,噹處理廢水的pH值為6.0、菌體投加量為10.00 g·L~(-1)時,對40.00 mg·L~(-1)含Cd廢水的去除率可達96. 68%.4輪吸附-解吸循環試驗結果顯示,固定化菌體可重複利用3次,固定化菌體在使用第3次時,Cd去除率仍可達51. 20%.在生物反應器中,用固定化菌體處理質量濃度為92. 61 mg·L~(-1)的含Cd電鍍廢水,3h時對Cd的去除率達到98. 80%,對含Cu、Au、Ni廢水中重金屬的去除率也高于90. 00%.
비교료4충고정화구형홍가단포균(Rhodopseudomonas sphaeroides)처리함Cd、Cr중금속폐수적효과,대고정화균흡부Cd화Cr적공예조건진행료우화,병통과생물반응기련속처리실제전도폐수,분석료처리후적효과.통과비교,학정료20 g·kg~(-1)비석화20 g·L~(-1)해조산납조합작위공고정재료,고정화균대Cd화Cr적거제효과명현우우유리균.채용정교시험우화폐수처리공예조건,결과표명,폐수pH치、균체투가량대고정화균체적처리효과영향교대,당처리폐수적pH치위6.0、균체투가량위10.00 g·L~(-1)시,대40.00 mg·L~(-1)함Cd폐수적거제솔가체96. 68%.4륜흡부-해흡순배시험결과현시,고정화균체가중복이용3차,고정화균체재사용제3차시,Cd거제솔잉가체51. 20%.재생물반응기중,용고정화균체처리질량농도위92. 61 mg·L~(-1)적함Cd전도폐수,3h시대Cd적거제솔체도98. 80%,대함Cu、Au、Ni폐수중중금속적거제솔야고우90. 00%.
Effect of immobilized Rhodopseudomonas sphaeroides treating cadmium (Cd) and chromium (Cr) containing wastewater was investigated and technological conditions for the immobilized bacteria to adsorb Cd and Cr ions were optimized in treating electroplanting wastewater continuously in a bioreactor. Results show that the bacteria immobilized in gel complex with 20 g ·kg~(-1) of zeolite and 20 g ·L~(-1) of sodium alginate were significantly better than free bacteria in removing Cd and Cr from the wastewater. Orthogonal experiments were conducted to optimize technological conditions for wastewater treatment. It was found that pH of the wastewater and inoculation rate of the bacteria were two major factors affecting heavy metals rermoving efficiency. When pH of the wastewater containing 40. 00 mg·L~(-1) Cd to be treated was 6. 0 and inoculation rate of the bacteria 10.00 g·L~(-1) , Cd removing rate reached 96.68%. Results of four cycles of sorption-desorption reveal that immobilized bacteria could last three cycles. Its Cd removing rate might still come up to 51.20% in the third cycle. In the bioreactor, immobilized R. sphaeroides was used to treat electroplating wastewater containing 92. 61 mg·L~(-1) Cd. Three hours of treatment removed 98.80% of the Cd in the wastewater and over 90. 00% of other heavy metals (Cu,Au and Ni) as well.
