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28环境工程EnvironmentalEngineering旁路水解酸化强化污泥过程减量运行性能与机理研究+王莹莹1吴光学1李延匣1郭玉梅2吴毅晖2郭防2(1.清华大学深圳研究生院深圳市环境微生物利用与安全控制重点实验室,广东深圳5180552.昆明滇池水务股份有限公司,昆明650228)摘要:旁路水解酸化技术既能实现污泥减量,又能为污水脱氮除磷补充碳源。采用水解酸化作为污泥旁路减量化技术,研究其污泥减量的运行性能和机理,同时考察了对污水处理工艺污染物去除的影响。采用污泥水解酸化旁路处理,得到污泥减量率为30%,其中水解酸化的贡献为0.7%,延长污泥龄贡献为17.1%,能量解偶联等贡献为12.2%。污泥水解酸化旁路处理对污水生物处理工艺的出水水质以及微生物活性影响不显著。水解酸化过程中会降低微生物脱氮活性,但对污水处理主反应器中微生物活性影响较小。污泥旁路水解酸化污泥减量工艺中,对污泥减量机理的解析,需要综合考虑水解酸化与污泥龄等对污泥减量效果的影响。关键词:旁路水解酸化;污泥减量;脱氮除磷;硝化活性;反硝化活性DOI:10.13205/i.hjgc.201606007PERFoRMANCEANDMECHANISMoFABYPASSHYDROLYSISANDACIDIFICATIONPROCESSFORENHANCEDSLUDGEREDUCTIONDURINGWASTEWATERTREATMENTWANGYing.yin91,WUGuang.xuel,LIYan.xuanl,GUOYu.mei2,WUYi.hui2,GUOFan92(1.KeyLaboratoryofMicroorganismApplicationandRiskControl(MARC)ofShenzhen,GraduateSchoolatShenzhen,TsinghuaUniversity,Shenzhen518055,China;2.KunmingDianehiWaterServiceCo.,Ltd.,Kunming650228,China)Abstract:Thebypasshydrolysisacidificationcanreducethesludgeproduction,meanwhilecontributecarbonsourcefordenitrifieationandphosphorusremovalfromwastewater.Performanceandmechanismofsludgereductionandtheeffectofhydrolysisacidificationonpollutantsremovalfromwastewaterwereexaminedinthebypasssystem.Thesludgereductionratiowas30%includingthecontributionofthehydrolysisacidification(accountedforabout0.7%),effectofextendedsludgeretentiontime(about17.1%),energyuncouplingandotherreasons(around12.2%).Thebypasstreatmenthadnosignificanteffectontheeffluentwaterqualityandmicrobialactivities.Thebypassprocessdecreasedthemicrobialactivities,whilehadlittleeffectonthosewithinthebiologicalwastewatertreatmentreactor.Forclarifyingthesludgereductionmechanism,thecontributionofhydrolysisandacidificationandalsotheeffectofsludgeretentiontimeshouldbeintegratedconsidered.Keywords:bypasshydrolysisacidification;sludgereduction;nitrogenandphosphorusremoval;nitrifyingactivity;denitrifyingactivity0引言截至2013年底,我国城市污水日处理能力达到1.24亿m3,其处理主要采用活性污泥法。采用活性污泥法处理污水时,剩余污泥产量大,如以含水率97%计约占污水处理量的0.3%~0.5%⋯;剩+国家水体污染控制与治理科技重大专项(201lZX07317-001);昆明市科技计划项目(2014-04一A—S-
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