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STRAIN OF BACTERIA PSEUDOMONAS PSEUDOALCALIGENS, USED FOR PURIFICATION OF SEWAGE FROM ACRYLIC ACID NITRILE

机译：细菌假单胞菌变应原菌，用于纯化丙烯酸腈纶中的污水

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the invention u043eu0442u043du043eu0441u0438u0442u0441u00a0 to biotechnology, in particular to a wastewater treatment u043cu0438u043au0440u043eu0431u0438u043eu043bu043eu0433u0438u0447u0435u0441u043au0438u043cu0438 methods can and willbe used u0434u043bu00a0 biological treatment u0441u0442u043eu0447u043d s water u043fu0440u0435u0434u043fu0440u0438u00a0u0442u0438u0439 chemical industry production of nitrile acrylic acid (as), u0430u043au0440u0438u043bu0430u043cu0438u0434u0430 (aa) and acrylic acid (ak).purpose u0438u0437u043eu0431u0440u0435u0442u0435u043du0438u00a0 u00a0u0432u043bu00a0u0435u0442u0441u00a0 u043fu043eu043bu0443u0447u0435u043du0438u00a0 strain with high destructive u0430u043au0442u0438u0432u043du043eu0441u0442 ^ new capable of degrade acrylonitrile in industrial wastewater. the strain isolated from soil u0441u0430u0440u0430u0442u043eu0432u0441u043au043eu0433u043e productive u043eu0431u044au0435u0434u0438u043du0435u043du0438u00a0 "acrylic fiber" method using cumulative culture as the sole source of c and n nitrile acrylic acid.the strain u0434u0435u0433u0440u0430u0433 u0434u0438u0440u0443u0435u0442 nak in u043au043eu043du0435u043du0442u0440u0430u0446u0438u0438 to 1 g / l in the microbial load of 5 - 10 and 1 * 10 tc / ml for 18 hours and 2 respectively, aa in the microbial load 5 '10. in a concentration of 1.5 g / l for 48 hours. ak in a concentration of 1 g / l with the same microbial strain for 48 hours. the strain degrades the u0441u043eu0435u0434u0438u043du0435u043du0438u00a0 in real wastewater in the presence of these salts u0442u00a0 -. u0436u0435u043bu044bu0445 metals, toluene and so on. 1, table 2).the invention u043eu0442u043du043eu0441u0438u0442u0441u00a0 to biotechnology, in particular to a wastewater treatment by microorganisms and can ^ t be used u0434u043bu00a0 biological cleansing of waste in. dr. u043fu0440u0435u0434u043fu0440u0438u00a0u0442u0438u0439 chemical industry production u0438u0438u0442u0440u0438u043bu0433 ^ acrylic acid (nak), u0430u043au0440u0438u043bu0430u043cu0438u0434u0430 (ld) and acrylic acid (ak).acrylonitrile and acrylamide u00a0u0432u043bu00a0u044eu0442u0441u00a0 u043au0440u0443u043fu043du043eu0442u043eu043du0430u0436u043du044bu043cu0438 products used as u043cu043eu043du043eu043cu0435u0442u0440u044b in the manufacture of polymeric materials and chemical u0432u043eu043bu043eu043au043eu043d.u043fu0440u00a0u043cu043eu0439 hundred the waste water from the factories material can cause severe over - u0433u0440u00a0u0437u043du0435 'of the environment because of their high toxicity.the u043du0430u0441u0442u043eu00a0u0449u0435u0435 u0432u0440u0435u043cu00a0 chemical and physico-chemical methods u043eu0447u0438u0441u0442u043au0438u0441u0442u043eu0447u043du044bu0445 waters from ak, aa or ak 'u0434u043eu0432u043eu043bu044c - but the roads are not always effective and u0442u0440u0443u0434u043eu0435u043cu043au0438. the most accessible, economically viable and effective enough u00a0u0432u043b ^ u00a0u044eu0442u0441u00a0 microbiological methods for water treatment based on the u0441u043fu043eu0441u043eu0431u043du043eu0441u0442u0438u043au0437 ^ ^

机译：生物技术，尤其是废水处理的发明 u043e u0442 u043d u043e u0441 u0438 u0442 u0441 u004a u0440 u043e u0431 u0431 u0438 u043e u043b u043e u0433 u0438 u0447 u0435 u0441 u043a u0438 u043c u0438方法可以并且将使用 u0434 u043b u00a0生物处理 u0441 u0442 u043e u0447 u043d s水 u043f u0440 u0435 u0434 u043f u0440 u0438 u00a0 u0442 u0438 u0439化学工业生产腈丙烯酸（as）， u0430 u043a u0440 u0438 u043b u0430 u043c u0438 u0434 u0430（aa）和丙烯酸酸（ak）。用途 u0438 u0437 u043e u0431 u0440 u0435 u0442 u0435 u043d u043d u0438 u00a0 u00a0 u0432 u043b u00a0 u0435 u0442 u0442 u0441 u00a0 u043f u043e u043e具有破坏性高的菌株，能够降解工业废水中的丙烯腈。新型菌株具有降解性。新型的具有降解能力的丙烯腈能够降解工业废水中的丙烯腈。 u0443 u0447 u0435 u043d u0438 u00a0从土壤中分离的菌株 u0441 u0430 u0440 u0430 u0442 u043e u0432 u0441 u043a u043e u0433 u043e生产性 u043e u0431 u044a u0435 u0434 u0434 u0438 u043d u0435 u043d u0438 u00a0 “丙烯酸纤维”方法使用累积培养作为c和n腈丙烯酸的唯一来源。菌株 u0434 u0435 u0433 u0440 u0430 u0433 u0434 u0438 u0440 u0443 u0435 u0442在5-10和1 * 10 tc / ml的微生物负荷中将 u043a u043e u043d u0435 u043d u0442 u0440 u0430 u0446 u0438 u0438中的nak浸泡至1 g / l持续18小时在图2中，aa分别在微生物负荷5'10中。以1.5 g / l的浓度混合48小时。浓度为1 g / l且相同的微生物菌株持续48小时。在存在这些盐的情况下，该菌株会降解真实废水中的 u0441 u043e u0435 u0434 u0438 u043d u0435 u043d u0438 u00a0-。 u0436 u0435 u043b u044b u0445金属，甲苯等。 1，表2）。本发明用于生物技术，特别是用于通过微生物处理废水，并且不能用于生物清除博士中的废物 u043f u0440 u0435 u0434 u043f u0440 u0438 u00a0 u0442 u0438 u0439化学工业生产 u0438 u0438 u0442 u0440 u0438 u043b u0433 ^丙烯酸（nak）， u0430 u043a u0440 u0438 u043b u0430 u043c u0438 u0434 u0430（ld）和丙烯酸（ak）。丙烯腈和丙烯酰胺 u00a0 u0432 u043b u00a0 u044e u0442 u0441 u00a0 u043a u0440 u0443 u043f u043d u043e u0442 u043e u043d u0430 u0436 u043d u044b u043c u0438用作 u043c u043e u043d u043e u043c u0435 u0442 u0440 u044b的产品聚合材料和化学材料 u0432 u043e u043b u043e u043a u043e u043d。 u043f u0440 u00a0 u043c u043e u0439工厂材料中的数百种废水可能导致严重污染- u0433 u0440 u00a0 u0437 u043d u0435由于它们的高毒性而对环境有害。 u043d u0430 u0441 u0442 u043e u00a0 u0449 u0435 u0435 u0432 u0440 u0435 u0435 u043c u00a0化学和物理化学方法 u043e u0447 u0438 u0441 u0442 u043a u0438 u0441 u0442 u043e u0447 u043d u044b u044来自ak，aa或ak的5条水域' u0434 u043e u0432 u043e u043b u044c-但道路并不总是有效，并且 u0442 u0440 u0443 u0434 u043e u0435 u043c u043c u043a u0438 u00a0 u0432 u043b ^ u00a0 u044e u0442 u0441 u00a0基于 u0441 u043f u043e u0441 u043e u043e u0431 u043d u043e的水处理微生物学方法 u0441 u0442 u0438 u043a u0437 ^ ^

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公开/公告号SU1712407A1

专利类型
公开/公告日1992-02-15

原文格式PDF
申请/专利权人 SARATOVSKIJ VNII GENETIKI SELEKTSII PROMYSHLENNYKH MIKROORGANIZMOV;
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申请/专利号SU19894764770
发明设计人 POLYANSKIJ ALEKSANDR BSU;KULIKOVA LIANA KSU;KOZULIN SERGEJ VSU;VOROBEVA LYUBOV NSU;VORONIN SERGEJ PSU;MOISEEVA TATYANA NSU;
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申请日1989-12-04
分类号C12N1/20;C12S13/00;
国家 SU
入库时间 2022-08-22 05:27:29

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