生活污水的过度排放引起的水体黑臭是一个亟待解决的环境问题.为建立黑臭水的微生物净化方法,从不同重污染水体或底泥中筛选获得了多种光合细菌,分析发现其中10种光合细菌(P1~P10)及其混合菌(Pm)对黑臭指标有改善效果.黑臭水厌氧光照净化试验结果表明,菌液投加量为1.0%,3 d后光合细菌P1,P2,P3,P4,P8,P9和Pm对人工黑臭水COD_(Cr),NH_(3-)N,S~(2-),色阈值及臭阈值去除率分别为75.00%~ 82.00%,24.20%~27.97%,72.03%~87.89%,58.90%~69.08%和75.29%~87.89%,其中P9的效果最好.黑臭水兼性厌氧光照净化试验结果表明,菌液投加量为1.0%,3 d后光合细菌P2,P3,P4,P8,P9和Pm对人工黑臭水中的COD_Cr,NH_3-N,S2-,色阈值及臭阈值去除率分别为60.67%~79.92%,35.92%~40.16%,72.03%~82.93%,58.25%~66.55%和75.29%~85.09%, ρ(DO)由0.54 mg/L增至1.80~2.63 mg/L,其中P2和P9的效果最好.经鉴定P9为沼泽红假单胞菌.研究发现,在菌液投加量为0.1%,30 ℃,厌氧光照条件下P9可明显改善水的黑臭指标.
生活汙水的過度排放引起的水體黑臭是一箇亟待解決的環境問題.為建立黑臭水的微生物淨化方法,從不同重汙染水體或底泥中篩選穫得瞭多種光閤細菌,分析髮現其中10種光閤細菌(P1~P10)及其混閤菌(Pm)對黑臭指標有改善效果.黑臭水厭氧光照淨化試驗結果錶明,菌液投加量為1.0%,3 d後光閤細菌P1,P2,P3,P4,P8,P9和Pm對人工黑臭水COD_(Cr),NH_(3-)N,S~(2-),色閾值及臭閾值去除率分彆為75.00%~ 82.00%,24.20%~27.97%,72.03%~87.89%,58.90%~69.08%和75.29%~87.89%,其中P9的效果最好.黑臭水兼性厭氧光照淨化試驗結果錶明,菌液投加量為1.0%,3 d後光閤細菌P2,P3,P4,P8,P9和Pm對人工黑臭水中的COD_Cr,NH_3-N,S2-,色閾值及臭閾值去除率分彆為60.67%~79.92%,35.92%~40.16%,72.03%~82.93%,58.25%~66.55%和75.29%~85.09%, ρ(DO)由0.54 mg/L增至1.80~2.63 mg/L,其中P2和P9的效果最好.經鑒定P9為沼澤紅假單胞菌.研究髮現,在菌液投加量為0.1%,30 ℃,厭氧光照條件下P9可明顯改善水的黑臭指標.
생활오수적과도배방인기적수체흑취시일개극대해결적배경문제.위건립흑취수적미생물정화방법,종불동중오염수체혹저니중사선획득료다충광합세균,분석발현기중10충광합세균(P1~P10)급기혼합균(Pm)대흑취지표유개선효과.흑취수염양광조정화시험결과표명,균액투가량위1.0%,3 d후광합세균P1,P2,P3,P4,P8,P9화Pm대인공흑취수COD_(Cr),NH_(3-)N,S~(2-),색역치급취역치거제솔분별위75.00%~ 82.00%,24.20%~27.97%,72.03%~87.89%,58.90%~69.08%화75.29%~87.89%,기중P9적효과최호.흑취수겸성염양광조정화시험결과표명,균액투가량위1.0%,3 d후광합세균P2,P3,P4,P8,P9화Pm대인공흑취수중적COD_Cr,NH_3-N,S2-,색역치급취역치거제솔분별위60.67%~79.92%,35.92%~40.16%,72.03%~82.93%,58.25%~66.55%화75.29%~85.09%, ρ(DO)유0.54 mg/L증지1.80~2.63 mg/L,기중P2화P9적효과최호.경감정P9위소택홍가단포균.연구발현,재균액투가량위0.1%,30 ℃,염양광조조건하P9가명현개선수적흑취지표.
The treatment of black and odorous water bodies caused by excessive discharge of domestic sewage is an urgent issue.In order to establish a treatment method by using specific and efficient microorganisms,ten species of photosynthetic bacteria named P1-P10,which showed ability of ameliorating the water quality of black and odorous water,were isolated from different polluted sediments or sewage.Three day testing under anaerobic and light conditions showed that the removal rates of COD_Cr,NH_3-N,S2-,odor threshold and color threshold by P1,P2,P3,P4,P8,P9,Pm(mixture of P1-P10) was 75.00%-82.00%,24.20%-27.97%,72.03%-87.89%,58.90%-69.08% and 75.29%-87.89% respectively,with inoculation amount of 1.0%.In this test,P9 was the most efficient microorganism.When the same test was conducted under facultative anaerobic and light conditions,the removal rates of COD_(Cr),NH_(3-)N,S~(2-),odor threshold and color threshold by P2,P3,P4,P8,P9,Pm was 60.67%-79.92%,35.92%-40.16%,72.03%-82.93%,58.25%-66.55% and 75.29%-85.09% respectively,with inoculation amount of 1.0%,while dissolved oxygen concentration increased from 0.54 mg/L to 1.80-2.63 mg/L in water.In the above test,P2 and P9 were the most efficient ones.P9 was identified as Rhodopseudomona palustris. The optimal treatment condition for P9 was under 30 ℃,anaerobic,light,and inoculation amount of 0.1% of black and odorous water.