[1]许峥,陈宇,后志,等.分歧纯生物菌剂对黑臭水体底泥的处置结果[J].中国给水排水,2021,37(1):102-108. XU Zheng,CHEN Yu,HOU Zhi,et al.Treatment Efficiency of Black and Odorous Water Body Sediment with Different Biological Agents[J].China Water Wastewater,2021,37(1):102-108.点击复制分歧纯生物菌剂对黑臭水体底泥的处置结果中国给水排水[ISSN:1000-4062/CN:12-1073/TU]卷:37期数:2021年第1期页码:102-108栏目:出书日期:2021-01-01Title:Treatment Efficiency of Black and Odorous Water Body Sediment with Different Biological Agents作者:许峥1,陈宇2,后志2,王宗平2,张敏1,苗蕾2(1.中国电建团体华东勘测设计研究院有限公司，浙江杭州311122；2.华中科技年夜学情况科学与工程学院，湖北武汉430074)Author(s):XU Zheng1,CHEN Yu2,HOU Zhi2,WANG Zong-ping2,ZHANG Min1,MIAO Lei2(1．PowerChina Huadong Engineering Corporation Limited, Hangzhou 311122, China； 2. School of Environmental Science Engineering, Huazhong University of Science and Technology, Wuhan 430074, China)要害词:黑臭水体;生物降解;底泥不变;异位处置;微生物种群Keywords:black and odorous water body;biodegradation;sediment stabilization;ectopic treatment;microbial community摘要:今朝黑臭水体底泥凡是采取化学或生物方式进行异位治理，生物法因为简单易操作、处置本钱较低而被普遍利用，并可以或许为后续的底泥资本化操纵供给前提。为探讨更适合的生物处置方式，明白生物处置进程中的微生物群落转变纪律，别离采取分歧种类的纯生物菌剂（硝化细菌、反硝化细菌、光合细菌和芽孢杆菌）对黑臭水体底泥进行异位处置，经由过程投加分歧剂量的纯菌剂，比力反映前后底泥中的总氮、总磷、有机质和含水率的转变。成果注解，在常温（20 5） ℃下颠末30 d的处置，底泥中含水率、总氮和有机质含量都有分歧水平的下降。此中，投加量为35 mg/L的反硝化细菌实验组处置结果最好，总氮和有机质去除率别离到达59.90%和20.93%。三维荧光光谱阐发注解，投加纯生物菌剂处置后，底泥中的年夜份子有机物浓度下降，小份子物资浓度有分歧水平的升高，申明生物菌剂可以或许提高底泥中微生物的活性，不但增进了有机物的降解，还为反硝化反映供给了碳源，增进了底泥中总氮的去除。另外，高通量测序也注解，投加菌剂的实验组样本中，都呈现了必然品貌的Thiobacillus、Sulfurovum、Sulfuricurvum和Sulfurimonas，且在芽孢杆菌实验组和光合细菌实验组中比例较高，四个菌属总比例别离到达13.24%和14.80%。这四个菌属可以或许介入硫代谢，对底泥中有机质（如卵白等）的降解起到主要感化。Abstract:At present, chemical or biological methods are usually employed for ectopic treatment of black and odorous water sediment. Biological method is widely applied because of its simplicity and low treatment cost, and it is beneficial to the subsequent utilization of sediment. In order to investigate a suitable biological treatment process and demonstrate the variations of microbial community during the biological treatment process, four types of biological agents (nitrifying bacteria, denitrifying bacteria, photosynthetic bacteria, and bacillus) were used for ectopic treatment of black and odorous water sediment. Different dosages of biological agents were added, and variations of total nitrogen (TN), total phosphorus, organic matter and water content in the sediment before and after the reaction were compared. After treatment of 30 days at room temperature (20 5) ℃, water content, total nitrogen, and organic matter in the sediment all decreased to different degrees. Among them, the denitrifying bacteria group with dosage of 35 mg/L had the best treatment efficiency: removal efficiencies of total nitrogen and organic matter reached 59.90% and 20.93%, respectively. Three-dimensional fluorescence spectrum analysis showed that the concentration of macromolecular organic matter in the sediment decreased and the concentration of small molecular matter increased in different degree after adding pure biological agent. This indicated that the biological agents improved the activity of microorganisms in the sediment, not only promoting the degradation of organic matter, but also providing carbon source for denitrification and promoting the removal of total nitrogen in the sediment. Furthermore, highthroughput sequencing also showed that Thiobacillus, Sulfurovum, Sulfuricurvum and Sulfurimonas were observed in all experimental groups with addition of biological agents, and the higher proportions in experimental groups with addition of bacillus and photosynthetic bacteria (total proportions of the four genera reaching 13.24% and 14.80%, respectively) were detected. These four genera were related to sulfur metabolism and might play an important role in the degradation of organics, such as proteins, in the sediment.类似文献/References:

[1]张岳,颜秀勤,赵新华,等.情况因子对水生植物复氧和除污结果的影响[J].中国给水排水,2018,34(21):64.ZHANG Yue,YAN Xiu qin,ZHAO Xin hua,et al.Reoxygenation and Decontamination Effect of Aquatic Plants under Different Levels of Environmental Factors[J].China Water Wastewater,2018,34(1):64.[2]马越.滤墙/AF/BAF/复合流人工湿地用在黑臭水体治理[J].中国给水排水,2018,34(20):76.MA Yue.Black-odorous Water Governance by a Combined Process of Fabricated PB, AF, BAF and ICW[J].China Water Wastewater,2018,34(1):76.[3]隋圣义.烟台市小鱼鸟河整治结果和长效管控阐发与对策[J].中国给水排水,2020,36(14):81.SUI Sheng-yi.Regulation Effect and Countermeasures of Longterm Management of Xiaoyuniao River in Yantai City[J].China Water Wastewater,2020,36(1):81.[4]方帅,徐洁,刘绪为,等.镇江虹桥港上游黑臭水系统统性治理工程设计[J].中国给水排水,2020,36(14):94.FANG Shuai,XU Jie,LIU Xu-wei,et al.Project Design of Systematic Treatment of Black-smelly Water Body in Upstream of Hongqiaogang, Zhenjiang City[J].China Water Wastewater,2020,36(1):94.[5]彭艺艺,郭顺媛,杨敏.柳州市竹鹅溪黑臭水体治理成效阐发[J].中国给水排水,2020,36(16):12.PENG Yi-yi,GUO Shun-yuan,YANG Min.Analysis of Black and Odorous Water Control Effect in Liuzhou Zhuexi River[J].China Water Wastewater,2020,36(1):12.[6]李瑞成,邱宏俊.深圳市新桥河水情况综合治理工程设计[J].中国给水排水,2020,36(16):95.LI Rui-cheng,QIU Hong-jun.Ecological Comprehensive Restoration Project Design of Xinqiao River in Shenzhen City[J].China Water Wastewater,2020,36(1):95.[7]张月,方帅,王阳,等.九江黑臭水体治理与提质增效手艺的阶段性总结[J].中国给水排水,2020,36(20):77.ZHANG Yue,FANG Shuai,WANG Yang,et al.Phased Summary of Black and Odorous Water Body Management and the Quality and Efficiency Improvement Technology in Jiujiang[J].China Water Wastewater,2020,36(1):77.[8]张亮,俞露,汤钟.基在 厂-网-河-城 全要素的深圳河道域治理思绪[J].中国给水排水,2020,36(20):81.ZHANG Liang,YU Lu,TANG Zhong.Thought of Pollution Control in Shenzhen River Basin Based on the Whole Factor of Plant, Network, River and City [J].China Water Wastewater,2020,36(1):81.[9]汤钟,孙静,张亮,等.深圳后海河道域黑臭水系统统化治理方案摸索[J].中国给水排水,2020,36(24):28.TANG Zhong,SUN Jing,ZHANG Liang,et al.Exploration of Systematic Control Scheme of Black and Smelly Water Body in Houhai River Basin of Shenzhen City[J].China Water Wastewater,2020,36(1):28.[10]王双,项立新,杨明轩,等.高密度建成区暗涵应急截污工程手艺研究[J].中国给水排水,2020,36(24):115.WANG Shuang,XIANG Li-xin,YANG Ming-xuan,et al.Study on Emergency Interception Engineering Technology of Culverts in High Density Built-up Area[J].China Water Wastewater,2020,36(1):115.[1]许峥,陈宇,后志,等.分歧纯生物菌剂对黑臭水体底泥的处置结果[J].中国给水排水,2021,37(1):102-108. XU Zheng,CHEN Yu,HOU Zhi,et al.Treatment Efficiency of Black and Odorous Water Body Sediment with Different Biological Agents[J].China Water Wastewater,2021,37(1):102-108.点击复制分歧纯生物菌剂对黑臭水体底泥的处置结果中国给水排水[ISSN:1000-4062/CN:12-1073/TU]卷:37期数:2021年第1期页码:102-108栏目:出书日期:2021-01-01Title:Treatment Efficiency of Black and Odorous Water Body Sediment with Different Biological Agents作者:许峥1,陈宇2,后志2,王宗平2,张敏1,苗蕾2(1.中国电建团体华东勘测设计研究院有限公司，浙江杭州311122；2.华中科技年夜学情况科学与工程学院，湖北武汉430074)Author(s):XU Zheng1,CHEN Yu2,HOU Zhi2,WANG Zong-ping2,ZHANG Min1,MIAO Lei2(1．PowerChina Huadong Engineering Corporation Limited, Hangzhou 311122, China； 2. School of Environmental Science Engineering, Huazhong University of Science and Technology, Wuhan 430074, China)要害词:黑臭水体;生物降解;底泥不变;异位处置;微生物种群Keywords:black and odorous water body;biodegradation;sediment stabilization;ectopic treatment;microbial community摘要:今朝黑臭水体底泥凡是采取化学或生物方式进行异位治理，生物法因为简单易操作、处置本钱较低而被普遍利用，并可以或许为后续的底泥资本化操纵供给前提。为探讨更适合的生物处置方式，明白生物处置进程中的微生物群落转变纪律，别离采取分歧种类的纯生物菌剂（硝化细菌、反硝化细菌、光合细菌和芽孢杆菌）对黑臭水体底泥进行异位处置，经由过程投加分歧剂量的纯菌剂，比力反映前后底泥中的总氮、总磷、有机质和含水率的转变。成果注解，在常温（20 5） ℃下颠末30 d的处置，底泥中含水率、总氮和有机质含量都有分歧水平的下降。此中，投加量为35 mg/L的反硝化细菌实验组处置结果最好，总氮和有机质去除率别离到达59.90%和20.93%。三维荧光光谱阐发注解，投加纯生物菌剂处置后，底泥中的年夜份子有机物浓度下降，小份子物资浓度有分歧水平的升高，申明生物菌剂可以或许提高底泥中微生物的活性，不但增进了有机物的降解，还为反硝化反映供给了碳源，增进了底泥中总氮的去除。另外，高通量测序也注解，投加菌剂的实验组样本中，都呈现了必然品貌的Thiobacillus、Sulfurovum、Sulfuricurvum和Sulfurimonas，且在芽孢杆菌实验组和光合细菌实验组中比例较高，四个菌属总比例别离到达13.24%和14.80%。这四个菌属可以或许介入硫代谢，对底泥中有机质（如卵白等）的降解起到主要感化。Abstract:At present, chemical or biological methods are usually employed for ectopic treatment of black and odorous water sediment. Biological method is widely applied because of its simplicity and low treatment cost, and it is beneficial to the subsequent utilization of sediment. In order to investigate a suitable biological treatment process and demonstrate the variations of microbial community during the biological treatment process, four types of biological agents (nitrifying bacteria, denitrifying bacteria, photosynthetic bacteria, and bacillus) were used for ectopic treatment of black and odorous water sediment. Different dosages of biological agents were added, and variations of total nitrogen (TN), total phosphorus, organic matter and water content in the sediment before and after the reaction were compared. After treatment of 30 days at room temperature (20 5) ℃, water content, total nitrogen, and organic matter in the sediment all decreased to different degrees. Among them, the denitrifying bacteria group with dosage of 35 mg/L had the best�����hth.txt treatment efficiency: removal efficiencies of total nitrogen and organic matter reached 59.90% and 20.93%, respectively. Three-dimensional fluorescence spectrum analysis showed that the concentration of macromolecular organic matter in the sediment decreased and the concentration of small molecular matter increased in different degree after adding pure biological agent. This indicated that the biological agents improved the activity of microorganisms in the sediment, not only promoting the degradation of organic matter, but also providing carbon source for denitrification and promoting the removal of total nitrogen in the sediment. Furthermore, highthroughput sequencing also showed that Thiobacillus, Sulfurovum, Sulfuricurvum and Sulfurimonas were observed in all experimental groups with addition of biological agents, and the higher proportions in experimental groups with addition of bacillus and photosynthetic bacteria (total proportions of the four genera reaching 13.24% and 14.80%, respectively) were detected. These four genera were related to sulfur metabolism and might play an important role in the degradation of organics, such as proteins, in the sediment.类似文献/References:

[1]张岳,颜秀勤,赵新华,等.情况因子对水生植物复氧和除污结果的影响[J].中国给水排水,2018,34(21):64.ZHANG Yue,YAN Xiu qin,ZHAO Xin hua,et al.Reoxygenation and Decontamination Effect of Aquatic Plants under Different Levels of Environmental Factors[J].China Water Wastewater,2018,34(1):64.[2]马越.滤墙/AF/BAF/复合流人工湿地用在黑臭水体治理[J].中国给水排水,2018,34(20):76.MA Yue.Black-odorous Water Governance by a Combined Process of Fabricated PB, AF, BAF and ICW[J].China Water Wastewater,2018,34(1):76.[3]隋圣义.烟台市小鱼鸟河整治结果和长效管控阐发与对策[J].中国给水排水,2020,36(14):81.SUI Sheng-yi.Regulation Effect and Countermeasures of Longterm Management of Xiaoyuniao River in Yantai City[J].China Water Wastewater,2020,36(1):81.[4]方帅,徐洁,刘绪为,等.镇江虹桥港上游黑臭水系统统性治理工程设计[J].中国给水排水,2020,36(14):94.FANG Shuai,XU Jie,LIU Xu-wei,et al.Project Design of Systematic Treatment of Black-smelly Water Body in Upstream of Hongqiaogang, Zhenjiang City[J].China Water Wastewater,2020,36(1):94.[5]彭艺艺,郭顺媛,杨敏.柳州市竹鹅溪黑臭水体治理成效阐发[J].中国给水排水,2020,36(16):12.PENG Yi-yi,GUO Shun-yuan,YANG Min.Analysis of Black and Odorous Water Control Effect in Liuzhou Zhuexi River[J].China Water Wastewater,2020,36(1):12.[6]李瑞成,邱宏俊.深圳市新桥河水情况综合治理工程设计[J].中国给水排水,2020,36(16):95.LI Rui-cheng,QIU Hong-jun.Ecological Comprehensive Restoration Project Design of Xinqiao River in Shenzhen City[J].China Water Wastewater,2020,36(1):95.[7]张月,方帅,王阳,等.九江黑臭水体治理与提质增效手艺的阶段性总结[J].中国给水排水,2020,36(20):77.ZHANG Yue,FANG Shuai,WANG Yang,et al.Phased Summary of Black and Odorous Water Body Management and the Quality and Efficiency Improvement Technology in Jiujiang[J].China Water Wastewater,2020,36(1):77.[8]张亮,俞露,汤钟.基在 厂-网-河-城 全要素的深圳河道域治理思绪[J].中国给水排水,2020,36(20):81.ZHANG Liang,YU Lu,TANG Zhong.Thought of Pollution Control in Shenzhen River Basin Based on the Whole Factor of Plant, Network, River and City [J].China Water Wastewater,2020,36(1):81.[9]汤钟,孙静,张亮,等.深圳后海河道域黑臭水系统统化治理方案摸索[J].中国给水排水,2020,36(24):28.TANG Zhong,SUN Jing,ZHANG Liang,et al.Exploration of Systematic Control Scheme of Black and Smelly Water Body in Houhai River Basin of Shenzhen City[J].China Water Wastewater,2020,36(1):28.[10]王双,项立新,杨明轩,等.高密度建成区暗涵应急截污工程手艺研究[J].中国给水排水,2020,36(24):115.WANG Shuang,XIANG Li-xin,YANG Ming-xuan,et al.Study on Emergency Interception Engineering Technology of Culverts in High Density Built-up Area[J].China Water Wastewater,2020,36(1):115.