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洁霉素废水
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  lincomycin wastewater
     Two spiral nanofiltration membranes, MPS 44 (1 4m 2) and DLNF 2 30 (0 24m 2), were connected in series to test the concentration process of lincomycin wastewater.
     考察了DLNF2 30 ( 0 2 4m2 )、MPS 4 4( 1 4m2 ) 2种卷式纳滤膜串联运行时对洁霉素废水中残余洁霉素的浓缩性能 .
短句来源
     The performance comparison of flat nanofiltration membrane in the treatment of lincomycin wastewater
     平板型纳滤膜处理洁霉素废水的膜性能比较
短句来源
     The Application of Nanofiltration Membrane in the Concentration and Separation of Lincomycin Wastewater
     纳滤膜在洁霉素废水浓缩分离中的应用
短句来源
     The experimental study of treating lincomycin wastewater was carried out with four kinds of flat nanofiltration membrane.
     采用4种平板型纳滤膜对洁霉素废水进行了实验研究.
短句来源
     Study on the degradation mechanism of biological hydrolysis (acidification) in treating high concentration lincomycin wastewater
     生物水解(酸化)法处理高浓度洁霉素废水的降解机理研究
短句来源
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  lincomycin hydrochloride wastewater
     An Upflow Anaerobic Sludge Bed (UASB) reactor was used in the treatment of Lincomycin hydrochloride wastewater at 34℃.
     采用上流式厌氧污泥床反应器,在34℃下处理洁霉素废水
短句来源
     The mass concentrations of CODCr and BOD5 of the Lincomycin hydrochloride wastewater were 16.8 ~ 24.3 g/L and 7.2~9.9 g/L respectively.
     洁霉素废水的CODCr质量浓度为16.8~24.3g/L,BOD5质量浓度为7.2~9.9g/L。
短句来源
     A Study of Anaerobic Biotreatment of Lincomycin Hydrochloride Wastewater
     洁霉素废水厌氧生物处理研究
短句来源
  “洁霉素废水”译为未确定词的双语例句
     Study on the Mechanism of the Bacteria-added Biological Contact Oxidation Process in the Treatment of Wastewater from Jiemycin Production Process
     投菌生物接触氧化法处理洁霉素废水的机理研究
短句来源
     The treatment of Lincomycine-containing wastewater with biological contact oxidation-flocculation recirculation process was investigated.
     本文概述了采用生物接触氧化(简称生物氧化)——絮凝循环回流法处理洁霉素废水的试验过程及结果分析。
短句来源
     Treatment of Lincomycine-Containing Wastewater with Biological Contact Oxidation-Flocculation Recirculation Process
     生物接触氧化——絮凝循环回流法处理洁霉素废水的试验研究
短句来源
     A study is conducted on separation and recycle of lincomycin from wastewater using nanofiltration membranes.
     针对纳滤膜应用于分离回收洁霉素废水中残余洁霉素作了试验性研究 .
短句来源
     An optimal membrane is used in concentration on the basis of several selection experiments, recycle rate of lincomycin can reach 95%.
     通过一系列的筛选试验 ,选出了性能优良的纳滤膜品种用于浓缩试验 ,并通过用纳滤膜对洁霉素废水的浓缩实验 ,确定了洁霉素的回收率达 95 % .
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The treatment of Lincomycine-containing wastewater with biological contact oxidation-flocculation recirculation process was investigated. Using this process, the COD removal was 96-98.5%(COD concentration of 13000-16000mg/l decreased to 270-470mg/l) the colourity removal was over 95% and the BOD removal was over 98%, the BOD concentration of the treated water was less than 60mg/l, and so meeting the effluent standard of biopharmacy industry.

本文概述了采用生物接触氧化(简称生物氧化)——絮凝循环回流法处理洁霉素废水的试验过程及结果分析。采用此法可使废水中的COD由13000~16000mg/l降至270~470mg/l,COD总去除率96~98.5%,色度去除率>95%,BOD去除率>98%,出水BOD<60mg/l,接近和达到生物制药工业废水的排放标准。

A feasibility study was carried out on the use of the acidic hydrolysis two stage bacteria-added biological contact oxidation/ coagulation process to treat the highly concentrated wastewater from the production process of Jiemycin. The results from this pilot study show that when the influent had a COD concentration in the range of 3500-5000mg/L and a BOD concentration in the range of 1000 - 1500mg/L,there were an average COD removal of over 95% and an average BOD removal of over 96 %,resulting in an effluent...

A feasibility study was carried out on the use of the acidic hydrolysis two stage bacteria-added biological contact oxidation/ coagulation process to treat the highly concentrated wastewater from the production process of Jiemycin. The results from this pilot study show that when the influent had a COD concentration in the range of 3500-5000mg/L and a BOD concentration in the range of 1000 - 1500mg/L,there were an average COD removal of over 95% and an average BOD removal of over 96 %,resulting in an effluent in compliance with the national standards for wastewater discharge under GB8978-88.

采用水解(酸化)-二段投菌生物接触氧化-混凝工艺处理高浓度洁霉素废水。中试结果表明:进水COD浓度为3500-5000mg/L范围时,出水COD平均去除率大于95%;进水BOD浓度为1000-1500mg/L范围时,出水BOD平均去除率大于96%,各项指标达到国家GB8978-88排放标准。

This paper deals with a treatment system in which the" hydrolytic acidifiCation-two singed biological concoct oxidstion-coagulation" process was used to treat a high strength wastewater from the production process of jiemycin. Particularly, it relates to the characteristics, distribution Patterns and degradetive functions of its aerobic microbial films. The selection and breeding of efficiently degradstive bacteria, and whether or not the added bacteria Can keep its dominance in the reactor were also studied...

This paper deals with a treatment system in which the" hydrolytic acidifiCation-two singed biological concoct oxidstion-coagulation" process was used to treat a high strength wastewater from the production process of jiemycin. Particularly, it relates to the characteristics, distribution Patterns and degradetive functions of its aerobic microbial films. The selection and breeding of efficiently degradstive bacteria, and whether or not the added bacteria Can keep its dominance in the reactor were also studied to explore the mechanism of treating jiemycin wastewater by using the bacteria-added biological concoct oxidation process. By the separation and identification of aerobic microbial films from this system, 18 strains bacteria species in 11 genera were obtained. Their distribution of bscteria counts and the effectiveness of degrading organics show that after passing through a pilot operation the added bacteria still exist in the reactor and tube the dominant position, and the most dominant strain was identified to be in Aeromona. Both qualitative and quantitative analyses of the effluentS from pilot aerobic treatments were made to find the reasons for causing the remaining CODcr values.

研究了“水解酸化-二段生物接触氧化-混凝”工艺处理高浓度洁霉素废水处理系统中好氧微生物膜特性、分布规律、降解作用、高效降解菌的选育、投加菌在反应器中能否保持优势等问题,以探讨用投菌生物接触氧化法处理洁霉素废水的机理。对本系统好氧微生物膜进行分离鉴定。获得菌种18株,分属于11个菌属,并根据细菌数量分布和降解效果证明:投加菌经中试运行后仍存于反应器中并占有优势,最优势菌株经鉴定属气单胞菌属;通过对中试好氧处理出水进行定性定量分析,寻找其引起剩余CODct值的原因。

 
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