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同济大学环境科学与工程学院教授,硕士生、博士生导师。主要研究领域聚焦在城市多源有机固废协同处置与资源化/能源化技术、荒漠化土地生态修复技术的研究方面。近五年,作为第一和通讯作者发表SCI/EI论文40余篇,授权发明专利25项,其中美国专利4项,参与国家、行为、团体标准6项。主要成果获得第十八届中国专利优秀奖,获2017年度上海市技术发明一等奖,获2020年度生态环境部科技进步一等奖,IWA项目创新奖银奖,第48届日内瓦国际发明展金奖,中国发明协会第二届发明创业奖成果奖一等奖,2022年上海市技术发明奖 二等奖等多项荣誉。主持了国家重点研发课题2项,中国工程院重点咨询项目1项,国家自然科学基金4项,重大水专项课题2项;与三峡集团、中国石油等合作承担校企重大横向课题4项等。指导本科生在第十八届“挑战杯”上海市大学生课外学术科技作品竞赛荣获上海市特等奖,第八届"汇创青春"——上海大学生文化创意作品展示活动(环境设计类) 荣获一等奖,第六届中国(上海)国际发明创新展览会荣获金奖,2023高等院校发明选拔赛荣获银奖等。
1.国家重点研发计划课题:城市多源有机污泥高质量资源化利用成套技术,2020.11-2024.10
2.中国工程院院士咨询课题重点项目:土地匮乏型大城市多源污泥处置战略研究,2022.03-2023.03
3.国家自然科学基金重大项目子课题:污水中有毒化学污染物的迁移转化与无害化机制,2022.01-2026.12.
4.国家自然科学基金:极端嗜热微生物强化好氧降解污泥中典型抗生素及阻断耐药基因传播的生物及非生物耦合机制,2023.01-2026.12.
5.国家自然科学基金:氨氮对污泥厌氧消化体系中硫生物转化的影响机制研究,2016.1-2019.12
6.国家自然科学基金:活性污泥-生物膜复合工艺中后生动物爆发性繁殖机制及控制研究,2011.1-2013.12
7.国家重大水专项课题:城镇污水处理厂污泥处理技术处置技术指南研究,2009.01-2011.12
8.“国家重大水专项课题:固定膜-活性污泥复合系统的稳定运行机制及生态特性研究,2012.1-2016.12
9.国家住建部863计划课题:北方市政污泥囊式厌氧发酵与燃气循环利用技术与示范,2012.01-2016.12
10.国家重大水专项课题:城市污泥安全处理处置与资源化全链条技术能力提升与工程实证,2017.1-2021.6
11.上海市技术标准专项:污水处理领域悬浮填料产品的技术标准研究,2006.6-2008.9
12.上海市公共技术服务平台专项:污水处理领域共性关键技术及产品研发,2008.6-2010.12
13.上海市水务局项目:上海农村分散污泥处理技术与管理体系研究,2019.5-2021.9
14.日本三菱电机公司国际合作项目,项目名称:污泥减量处理系统示范试验联合研究,2019.9-2021.3
15.中国长江三峡集团有限公司合作项目,项目名称:污水厂污泥中病原体聚集传播机制及其臭氧卫生化调理技术研究,2020.8-2022.8
16. 中国长江三峡集团有限公司(上海勘测设计研究院)合作项目,项目名称:以水热预处理为核心的污泥减量、减害与资源化关键技术研究,2020.7-2022.7
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支持扩展名:.rar .zip .doc .docx .pdf .jpg .png .jpeg(1) 国家重点研发计划课题:城市多源有机污泥高质量资源化利用成套技术,2020.11-2024.10
(2) 中国工程院重点咨询项目:土地匮乏型大城市多源污泥处置战略研究,2022.3-2023.3
(3) 自然科学基金重大项目子课题,项目名称:污泥中有毒化学污染物的迁移转化与无害化机制,2022.01-2026.12.
(4) 自然科学基金面上项目:极端嗜热微生物强化好氧降解污泥中典型抗生素及阻断耐药基因传播的生物及非生物耦合机制,2023.01-2026.12.
(5) 国家自然科学基金重点项目:污泥高含固厌氧消化中的物质转化原理及新技术研究,2016.1-2020.12;
(6) 国家自然科学基金面上项目:氨氮对污泥厌氧消化体系中硫生物转化的影响机制研究,2016.1-2019.12
(7) 国家自然科学基金青年项目:活性污泥-生物膜复合工艺中后生动物爆发性繁殖机制及控制研究,2011.1-2013.12
(8) 国家重大水专项课题:城镇污水处理厂污泥处理技术处置技术指南研究,2009.01-2011.12
(9) 国家重大水专项课题:固定膜-活性污泥复合系统的稳定运行机制及生态特性研究,2012.1-2016.12
(10)国家住建部863计划课题:北方市政污泥囊式厌氧发酵与燃气循环利用技术与示范,2012.01-2016.12
(11)国家重大水专项课题:城市污泥安全处理处置与资源化全链条技术能力提升与工程实证,2017.1-2021.6
(12)上海市技术标准专项:污水处理领域悬浮填料产品的技术标准研究,2006.6-2008.9
(13)上海市公共技术服务平台专项:污水处理领域共性关键技术及产品研发,2008.6-2010.12
(14)上海市水务局项目:上海农村分散污泥处理技术与管理体系研究,2019.5-2021.9
(15)日本三菱电机公司国际合作项目,项目名称:污泥减量处理系统示范试验联合研究,2019.9-2021.3
(16)中国长江三峡集团有限公司合作项目,项目名称:污水厂污泥中病原体聚集传播机制及其臭氧卫生化调理技术研究,2020.8-2022.8
(17)中国长江三峡集团有限公司(上海勘测设计研究院)合作项目,项目名称:以水热预处理为核心的污泥减量、减害与资源化关键技术研究,2020.7-2022.
论文:
(1) Huang Haozhe, Wei Tingting, Wang Hui, Xue Bing, Chen Sisi, Wang Xiankai,Wu Haibin, Dong Bin*, Xu Zuxin. In-situsludge reduction based on Mn2+-catalytic ozonation conditioning:Feasibility study and microbial mechanisms. Journal of Environmental Sciences,2024, 135:185-197.
(2) Zhang Shijie, Gu Weihua, Bai Jianfeng, Dong Bin*, Zhao Jing, ZhuangXuning. Fate and health risk assessment of heavy metals in Brassica chinensisL. (pak-choi) and soil amended by sludge-based biochar. Environmental Scienceand Pollution Research, 2023, 30(3):5621-5633.
(3) Chen Renjie, Yuan Shijie, Wang Xiankai, Dai Xiaohu, Guo Yali, LiChong, Wu Haibin, Dong Bin*. Mechanisticinsight into the effect of hydrothermal treatment of sewage sludge onsubsequent pyrolysis: Evolution of volatile and their interaction withpyrolysis kinetic and products compositions. Energy, 2023, 266:126330.
(4) Tang Yanfei, Sun Jing, DongBin*, Dai Xiaohu. Citric acid treatment directly on anaerobic digestorsludge alleviates the inhibitory effect of in-situ generated humic acids bytheir deconstruction and redistribution. Water Research, 2023, 233:119680.
(5) Xiao Tingting, Wang Hui, Wang Xiankai, Wu Haibin, Yuan Shijie, DaiXiaohu, Dong Bin*. New strategy ofdrinking water sludge as conditioner to enhance waste activated sludgedewaterability: Collaborative disposal. Water Research, 2023, 233:119761.
(6) Li Xiaowei, Huang Xiang, Zhao Chuyun, Wang Xuan, Dong Bin*, Goonetilleke Ashantha, KimKi-Hyun. Characterizing molecular transformation of dissolved organic matterduring high-solid anaerobic digestion of dewatered sludge using ESI FT-ICR MS.Chemosphere, 2023, 320:138101.
(7) Wang Jingjing, Yuan Shijie, Dai Xiaohu, Dong Bin*. Application, mechanism and prospects of Fe-based/Fe-biochar catalysts in heterogenous ozonation process: A review. Chemosphere,2023, 319:138018.
(8) Zhang Shijie, Gu Weihua, Geng Zhixin, Bai Jianfeng, Dong Bin,Zhao Jing, Zhuang Xuning, Shih Kaimin. Immobilization of heavy metals in biocharby co-pyrolysis of sludge and CaSiO3. Journal of Environmental Management,2023, 326:116635.
(9) Zhu Li, Tao Hong, Dai Xiaohu, Dong Bin, Zhang Wei. Impactof hydrophilic functional groups of macromolecular organic fractions on foodwaste digestate dewaterability. Journal of Environmental Management, 2023,326:116722.
(10) Cui Mengke, Xu Shiliang, Song Wenqing, Ye Huibin, Huang Jialiang,Liu Binhan, Dong Bin*, Xu Zuxin,Trace metals, polycyclic aromatic hydrocarbons and polychlorinated biphenyls inthe surface sediments from Sanya River, China: Distribution, sources andecological risk. Environmental Pollution, 2022, 294:118614.
(11) Gu Weihua, Guo Jiangshan, Bai Jianfeng*, Dong Bin*, Hu Jun, Zhuang Xuning, Zhang Chenglong and Shih Kaimin. Co-pyrolysisof sewage sludge and Ca(H2PO4)2: heavy metalstabilization, mechanism, and toxic leaching. Journal of EnvironmentalManagement, 2022, 305:114292.
(12) Chen Renjie, Yuan Shijie, Chen Sisi, Ci Hanlin, Dai Xiaohu, WangXiankai, Li Chong, Wang Dianchang, DongBin*. Life-cycle assessment of two sewage sludge-to-energy systems based ondifferent sewage sludge characteristics: Energy balance and greenhousegas-emission footprint analysis. Journal of Environmental Sciences, 2022,111:380-391.
(13) Wan Jiapeng, Zeng Yifan, Wang Mei, Dong Bin*, Xu Zuxin. New mechanism of FA in composted sludgeinducing Cu fixation on Albite in open-pit mine soil. Journal of EnvironmentalSciences, 2022, 116:142-150.
(14) Chen Renjie, Sheng Qian, Chen Sisi, Dai Xiaohu, Dong Bin*. The three-stage effect ofhydrothermal treatment on sludge physical-chemical properties: Evolution ofpolymeric substances and their interaction with physicochemical properties.Water Research, 2022, 211:118043.
(15) Chen Renjie, Dai Xiaohu, DongBin*. Decrease the effective temperature of hydrothermal treatment forsewage sludge deep dewatering: Mechanistic of tannic acid aided. WaterResearch, 2022, 217:118450.
(16) Xiao Tingting, Zhang Lingjun, Chen Sisi, Dai Xiaohu, Dong Bin*. A novel application ofdissolved ozone flotation on sewage sludge thickening: Performance andmechanism investigation. Science of The Total Environment, 2022, 842:156874.
(17) Li Xiaowei, Wang Xuan, Chen Lubei, Huang Xiang, Pan Fengying, LiuLulu, Dong Bin*, Liu Hongtao, Li Hui*,Dai Xiaohu, Hur Jin. Changes in physicochemical and leachate characteristics ofmicroplastics during hydrothermal treatment of sewage sludge. Water Research,2022, 222:118876.
(18) Gao Jun, Li Lei, Yuan Shijie, Chen Sisi*, Dong Bin*. The neglected effects of polysaccharide transformationon sludge humification during anaerobic digestion with thermal hydrolysispretreatment. Water Research, 2022, 226:119249.
(19) Chen Sisi, Xue Bin, Wang Xiankai, Dong Bin*, Xu Zuxin. Partial ozonation enhanced the content andaromatization of humic substances in activated sludge through chemical andmicrobial effects. Journal of Cleaner Production, 2022, 378:134531.
(20) Yuan ShiJie, Dong Bin*,Dai XiaoHu*. Facile and scalable synthesis of high-quality few-layer graphenefrom biomass by a universal solvent-free approach. Applied Surface Science,2021, 562:150203.
(21) Gu Weihua, Guo Jiangshan, Bai Jianfeng*, Dong Bin*, Ma En, Chen Jianmeng and Wang Jingwei. Co-pyrolysis ofmonobasic potassium phosphate and plastic processing sludge: Characteristicsand environmental risks of potentially toxic elements. Ecotoxicology andEnvironmental Safety, 2021, 208:111434.
(22) Chen Renjie, Sheng Qian, Dai Xiaohu, Dong Bin*. Upgrading of sewage sludge by low temperature pyrolysis:Biochar fuel properties and combustion behavior. Fuel, 2021, 300:121007.
(23) Xiao Tingting, Dai Xiaohu, Wang Xiankai, Chen Sisi*, Dong Bin*. Enhanced sludgedewaterability via ozonation catalyzed by sludge derived biochar loaded withMnFe2O4: Performance and mechanism investigation. Journalof Cleaner Production, 2021, 323:129182.
(24) Chen Sisi, Dai Xiaohu, Yang Dianhai, Dong Bin*. Effects of sludge age on anaerobic acidification ofwaste activated sludge: Volatile fatty acids production and phosphorus release.Journal of Environmental Sciences, 2021, 105:11-21.
(25) Xu Shiliang, Cui Mengke, Chen Renjie, Qiu Qiaoqing, Xie Jiacai,Fan Yuxin, Dai Xiaohu, Dong Bin*. Designof facile technology for the efficient removal of hydroxypropyl guar gum from fracturing fluid. PLoS One, 2021,16(3):e247948.
(26) Zhu Ping, Shen Yilin, Pan Xusheng, Dong Bin*, Zhou John, Zhang Weidong, Li Xiaowei*. Reducing odoremissions from feces aerobic composting: additives. RSC Advances, 2021,11(26):15977-15988.
(27) Chen Sisi, Gao Jun, DongBin*. Bottlenecks of anaerobic degradation of proteins in sewage sludge andthe potential targeted enhancing strategies. Science of The Total Environment,2021, 759:143573.
(28) Li Xiaowei, Li Man, Mei Qingqing, Niu Shiyu, Wang Xuan, XuHuafang, Dong Bin*, Dai Xiaohu, ZhouJohn L., Aging microplastics in wastewater pipeline networks and treatmentprocesses: Physicochemical characteristics and Cd adsorption. Science of TheTotal Environment, 2021, 797:148940.
(29) Yuan ShiJie, Sheng Qian, DongBin*, Dai XiaoHu. Rational design and solvent-free synthesis ofiron-embedded 2D composite materials derived from biomass for efficient oxygenreduction reaction. Sustainable Energy & Fuels, 2021, 5(16):3979-3986.
(30) Chen Sisi, Yang Dianhai*, DongBin*, Li Ning, Dai Xiaohu. Sludge age impacted the distribution, occurrencestate and structure of organic compounds in activated sludge and affected theanaerobic degradability. Chemical Engineering Journal, 2020, 384:123261.
(31) Zhang Wei, Dai Xiaohu*, Dong Bin, Dai Lingling. Newinsights into the effect of sludge proteins on the hydrophilic/hydrophobicproperties that improve sludge dewaterability during anaerobic digestion. WaterResearch, 2020, 173:115503.
(32) Li Xin, Chen Sisi, DongBin*, Dai Xiaohu. New insight into the effect of thermal hydrolysis on highsolid sludge anaerobic digestion: Conversion pathway of volatile sulphurcompounds. Chemosphere, 2020, 244:125466.
(33) Chen Renjie, Yu Xiaoqing, DongBin*, Dai Xiaohu. Sludge-to-energy approaches based on pathways that couplepyrolysis with anaerobic digestion (thermal hydrolysis pre/post-treatment):Energy efficiency assessment and pyrolysis kinetics analysis. Energy, 2020,190:116240.
(34) Lu Yiqing, Xu Ying, Chen Sisi, Dong Bin*, Dai Xiaohu. Effect of nitrite addition on the two-phaseanaerobic digestion of waste activated sludge: Optimization of the acidogenicphase and influence mechanisms. Environmental Pollution, 2020, 261:114085.
(35) Li Xin, Xiong Nanan, Wang Xiankai, Dai Xiaohu, Guo Yali, Dong Bin*. New insight into volatilesulfur compounds conversion in anaerobic digestion of excess sludge: Influenceof free ammonia nitrogen and thermal hydrolysis pretreatment. Journal ofCleaner Production, 2020,277:123366.
(36) Chen Sisi, Dong Bin*,Yang Dianhai*, Li Ning, Dai Xiaohu. Micron-sized silica particles in wastewaterinfluenced the distribution of organic matters in sludge and their anaerobicdegradation. Journal of Hazardous Materials, 2020, 393:122340.
(37) Chen Sisi, Huang Jialiang, Xiao Tingting, Gao Jun, Bai Jianfeng,Luo Wei, Dong Bin*. Carbon emissionsunder different domestic waste treatment modes induced by garbageclassification: Case study in pilot communities in Shanghai, China. Science ofThe Total Environment, 2020, 717:137193.
(38) Li Xiaowei, ChenLubei, Ji Yanyan, Li Man, Dong Bin*,Qian Guangren, Zhou John, Dai Xiaohu*. Effects of chemical pretreatments onmicroplastic extraction in sewage sludge and their physicochemicalcharacteristics. Water Research, 2020, 171:115379.
(39) Dong Bin, Xia Zhaohui, Sun Jing, Dai Xiaohu,Chen Xuemin, Ni Bingjie. The inhibitory impacts of nano-graphene oxide onmethane production from waste activated sludge in anaerobic digestion. Scienceof the total environment, 2019, 646:1376-1384.
(40) Lu Yiqing, Xu Ying, Dong Bin*, Dai Xiaohu. Effects of freenitrous acid and nitrite on two-phase anaerobic digestion of waste activatedsludge: A preliminary study. Science of the Total Environment, 2019,654:1064-1071.
(41) Zhang Wei, Dong Bin*, Dai Xiaohu*. Mechanism analysis toimprove sludge dewaterability during anaerobic digestion based on moisturedistribution. Chemosphere, 2019, 227:247-255.
(42) Yang Donghai, Hu Chongliang, Dai Lingling, Liu Zhigang, DaiXiaohu, Dong Bin*. Post-thermal hydrolysis and centrate recirculationfor enhancing anaerobic digestion of sewage sludge. Waste Management, 2019,92:39-48.
(43) Wang Youqing, Dong Bin *,Fan Yuxin, Hu Yuanyuan, Zhai Xiaoyu, Deng Chen, Xu Ying, Shen Danni, DaiXiaohu. Nitrogen transformation during pyrolysis of oilfield sludge with highpolymer content. Chemosphere, 2019, 219:383-389.
(44) Dong Bin, Xia Zhaohui, Sun Jing*, Dai Xiaohu, Ni Bingjie, The Inhibitory Impacts ofNano-Graphene Oxide on Methane Production from Waste Activated Sludge inAnaerobic Digestion. Science of The Total Environment, 2019, 646, 1376-1384.
(45) Li Xiaowei, Mei Qingqing, Yan Xiaofang, Dong Bin*, Dai Xiaohu, Yu Liangliang,Wang Yibo, Ding Guoji, Yu Fang, Zhou John. Molecular characteristics of therefractory organic matter in the anaerobic and aerobic digestates of sewagesludge. RSC Advances, 2018, 8(58):33138-33148.
(46) Chen Hanyu, Liu Yongde, Dong Bin*. Biodegradation oftetracycline antibiotics in A/O moving-bed biofilm reactor systems. Bioprocessand biosystems engineering, 2018, 4(1):47-56.
(47) Dai Xiaohu, Xu Ying, Lu Yiqing, Dong Bin*. Recognition on the Key Chemical Constituents of SewageSludge for Biogas Production. RSC Advances, 2017, 7:2033-037.
(48) Dai Xiaohu, Xu Ying, Lu Yiqing, Dong Bin*. Recognition on the Key Chemical Constituents of SewageSludge for Biogas Production. RSC Advances, 2017, 7:2033-037.
(49) Xu Ying, Lu Yiqing, Dai Xiaohu, Dong Bin*. Evaluatingthe biogas conversion potential of sewage sludge by surface site density ofsludge particulate. Chemical Engineering Journal, 2017, 327:1184-1191.
(50) Dai Xiaohu *, Xu Ying *, Dong Bin*. Effect of themicron-sized silica particles (MSSP) on biogas conversion of sewage sludge.Water Research, 2017, 115:220-228.
(51) Dong Bin, Liu Minghao, Tan Jie,Feng Qingqing, Meng Jinfeng, Dai Xiaohu. Temporal dynamics of the microbialcommunity in an integrated fixed-film activated sludge system revealed by 16SrRNA MiSeq sequencing. Desalination and watertreatment, 2017, 62:185-191.
(52) Gua Weihua, Bai Jianfeng*, Dong Bin*, Zhuang Xuning, Zhao Jing, Zhang Chenglong, WangJingwei, Shih Kaimin. Catalytic effect of graphene in bioleaching copper fromwaste printed circuit boards by Acidithiobacillus ferrooxidans.Hydrometallurgy, 2017, 171:172-178.
(53) Gu Weihua, Bai Jianfeng*, Dong Bin*, Catalytic effectof graphene in bioleaching copper from waste printed circuit boards byAcidithiobacillus ferrooxidans. Hydrometallurgy, 2017, 171:172-178.
(54) Dong Bin, Gao Peng, Zhang Dong, Chen Yinguang, Dai Lingling, DaiXiaohu. A new process to improve short-chain fatty acids and bio-methanegeneration from waste activated sludge. Journal of Environmental Sciences,2016, 43:159-168.
(55) Dai Xiaohu, Ye Ning, Luo Fan, Dong Bin*. Enhancement of anaerobic digestive efficiency by the useof exchange resin to remove cations in sewage sludge. Desalination and WaterTreatment, 2016, 57 (14) :6202–6208.
(56) Dong Bin, Tan Jie, Yang Yang, Pang Zishan, Li Zhongtian, Dai Xiaohu*.Linking nitrification characteristic and microbial community structures in anIntegrated Fixed Film Activated Sludge reactor by high-throughput sequencing.Water Science and Technology, 2016, 7(6):1354-1364.
(57) Dai Xiaohu, Luo Fan, Zhang Dong*, Dai Lingling, ChenYinguang, Dong Bin*. Waste-ActivatedSludge Fermentation for Polyacrylamide Biodegradation Improved by AnaerobicHydrolysis and Key Microorganisms Involved in Biological PolyacrylamideRemoval. Scientific Reports, 2015, 5:11675.
(58) Dai Xiaohu, Gai Xin, Ye Ning, Luo Fan, Dong Bin*. Evaluation of a pretreatment method using cationexchange resin to enhance the sludge solubilization and disintegration forimproving the efficiency of anaerobic digestion. Desalination and WaterTreatment, 2015, 56(11):2848-2855.
(59) Dai Xiaohu, Luo Fan, Yi Jing, He Qunbiao, Dong Bin*. Biodegradation ofpolyacrylamide by anaerobic digestion under mesophilic condition and itsperformance in actual dewatered sludge system. Bioresource Technology. 2014,153:55-61.
(60) Yi Jing, Dong Bin*,Jin Jingwei, Dai Xiaohu *. Effect of increasing total solids contents onanaerobic digestion of food waste under mesophilic conditions: performance andmicrobial characteristics analysis. PLOS ONE, 2014, 9(7):1-10.
(61) Dai Xiaohu, Gai Xin, DongBin*. Rheology evolution of sludge through high-solid anaerobic digestion.Bioresource Technology, 2014, 174:6-10.
(62) Luo Fan, Dong Bin*,Dai Lingling, He Qunbiao, Dai Xiaohu. Change of thermal drying characteristicsfor dewatered sewage sludge based on anaerobic digestion. Journal of ThermalAnalysis and Calorimetry, 2013, 114 (1):307-312.
(63) Dong Bin*, Liu Xiaoguang *, Dai Lingling, Dai Xiaohu. Changes of heavymetal speciation during high-solid anaerobic digestion of sewage sludge.Bioresource Technology, 2013, 131:152-158.
(64) Liu Xiaoguang, DongBin*, Dai Xiaohu. Hydrolysis and acidification of dewatered sludge undermesophilic, thermophilic and extreme thermophilic conditions: Effect of pH.Bioresource Technology, 2013, 148:461-466.
(65) Dai Xiaohu, Duan Nina, DongBin*, Dai Lingling. High-solids anaerobic co-digestion of sewage sludge andfood waste in comparison with mono digestions:Stability and performance. WasteManagement, 2013, 33:308-316.
(66) Duan Nina, Dong Bin*,Wu Bing, Dai Xiaohu. High-solid anaerobic digestion of sewage sludge undermesophilic conditions:Feasibility study. BioresourceTechnology, 2012, 104:150-156.(扩展版ESI论文)
(67) Liu Xiaoguang, DongBin*, Dai Lingling, Dai Xiaohu. Conversion of heavy metal fractions inwaste-activated sludge during anaerobic digestion. Fresenius EnvironmentalBulletin, 2012, 21(10):2896-2900.
(68) 李昕,杨早,钟欣茹,韩昊轩,庄绪宁,白建峰,董滨*,徐祖信. 污泥超高温堆肥衍生胡敏酸对Pb~(2+)的结合机制[J]. 化工进展,2023:1-16.
(69) 孙相娟,刘宾寒,张领军,Kyohei Aketagawa,薛斌杰,任银姬,白建峰,詹咏,陈思思,董滨*. 臭氧在中试规模污泥原位减量中的应用[J]. 中国环境科学,2022,42(03):1128-1137.
(70) 韦婷婷,王先恺,詹咏,陈思思,董滨*. Mn~(2+)催化臭氧氧化活性污泥强化溶胞[J]. 化工进展,2022,41(02):1009-1016.
(71) 宋相通,杨明超,张俊,郭亚丽,董滨*. 污泥超高温好氧发酵去除氟喹诺酮类抗生素及其降解产物[J]. 中国环境科学,2022,42(01):220-226.
(72) 肖婷婷,戴晓虎,陈思思,王先恺,董滨*. 污泥衍生生物炭催化臭氧强化污泥脱水:臭氧剂量优化:中国环境科学学会2022年科学技术年会——环境工程技术创新与应用分会场,中国江西南昌.
(73) 乔雪园,吴海斌,王殿常,李翀,王先恺,师雄,董滨*. 长江经济带矿山生态治理的实施成效、问题与对策[J].中国矿业,2022,31(08):36-43.
(74) 陈思思,董滨*,徐祖信. 矿山土地生态修复技术及市政污泥稳定化产物的应用潜力[J]. 中国环境科学,2022,42(12):5734~5747.
(75) 詹咏,韦婷婷,叶汇彬,董滨*,张领军,黄远东. 三亚河沉积物PAHs和PCBs的分布,来源及风险评价[J]. 环境科学,2021,42(04):1830-1838.
(76) 詹咏,张领军,谢加才,董滨*,韦婷婷,黄远东. 热解终温对含油污泥三相产物特性的影响[J]. 环境工程学报,2021,15(07):2409-2416.
(77) 薛冰,陈思思,刘宾寒,王先恺,贲伟伟,董滨*. 臭氧处理对剩余污泥减量化,资源化与无害化的影响研究进展[J]. 给水排水,2021,57(04):57-65
(78) 薛冰,刘宾寒,韦婷婷,王先恺,陈思思,董滨*. 基于臭氧旁路处理的污泥原位减量技术工艺[J]. 环境科学,2021,42(05):2402-2412.
(79) 董滨,高君,陈思思*,杨殿海,戴晓虎. 我国剩余污泥厌氧消化的主要影响因素及强化[J]. 环境科学,2020,41(07):3384-3391.
(80) 詹咏,叶汇彬,董滨*,黄远东. 污泥高级厌氧消化前后的热风对流干燥特性[J]. 上海理工大学学报,2020,42(04):354-360.
(81) 詹咏,薛冰,董滨*,熊丹,刘宾寒,黄远东,徐海斌. 硫酸根自由基对含油污泥脱水性能的影响[J]. 化学工程,2020,48(05):1-5.
(82) 詹咏,黄嘉良,罗伟,董滨*,徐海斌,黄远东. 上海市试点小区湿垃圾源头减量前后垃圾处理处置全链条碳足迹分析[J]. 环境工程学报,2020,14(04):1075-1083.
(83) 王先恺,董滨*,高勇,孙凯丽,次瀚林. 污泥生物处理技术在长江大保护中的应用前景[J]. 环境科学研究,2020, 33(05):1241-1246.
(84) 金伟,董滨*,谭学军,徐祖信. 全流程实测揭露新冠病毒从病区到城市污水处理系统的传播[J]. 给水排水,2020, 56(04):1-3.
(85) 戴晓虎*,李小伟,杨婉, 戴翎翎,董滨. 污水处理厂污泥中病毒的赋存特性及处理处置过程中暴露风险防控研究进展. 给水排水, 2020, 46(3):60-73 (新冠疫情特刊)
(86) 金伟,董滨*,谭学军,徐祖信. 新冠病毒从病房到城市污水收集处理系统的检测分析[J]. 给水排水. 2020,56(4):1-3.(导航文章)
专利:
(1) 一种有机废弃物高速腐殖化的微生物菌剂及其制备方法;董滨,李昕,陈仁杰,吕楠,高君,钟欣茹,徐祖信;CN202210728902.1;
(2) 聚氨酯海绵负载蛋黄核壳结构介孔碳纳米球的制备方法及应用;董滨,崔梦珂,徐祖信;CN202210423696.3;
(3) 一种利用水热污泥及脱水液进行边坡修复的方法;董滨,陈思思,徐祖信;CN202210544293.4;
(4) 一种利用污泥稳定化产物改良碱性土壤并强化碳捕集的方法;董滨,陈思思,徐祖信;CN202210544289.8;
(5) 一种Ca-Ni灰基催化剂、富氢合成气的制备方法;董滨,陈仁杰;CN202210368327.9;
(6) 一种喷播基质及其制备、应用和使用方法;乔雪园,董滨,王先恺,王航,吴海斌,王殿常,李翀,师雄;CN202210844828.X;
(7) 利用给水污泥制备污泥调理剂的方法及其应用;董滨,肖婷婷,陈思思,徐祖信;CN202111304440.2;
(8) 一种污泥热水解和焚烧耦合系统的氮中和工艺;董滨,沈丹妮,盛乾;CN202110479175.5;
(9) 一种腐殖化产物用于矿山重金属冲淋污染控制的方法;董滨,李昕,沈丹妮,徐祖信;CN202110853644.5;
(10)一种基于污泥热水解的机械脱水一体化设备;次瀚林,郭亚丽,方宁,董滨,范缙,杨航,王先恺,周程;CN202122340443.3;
(11)一种多层箱式好氧发酵设备及发酵方法;董滨,李锟,王先恺,王航,吴海斌,王殿常,李翀;CN202210448612.1;
(12)一种用于污水处理厂污泥原位减量的改造方法;董滨,陈思思,沈丹妮;CN202110106169.5;
(13)一种锰氧化真菌及其应用;王美,徐祖信,董滨;CN202110048920.0;
(14)一种利用关键有机质诱导活化态重金属稳定化的方法;陈思思,董滨,徐祖信;CN202110986796.2;
(15)应用于底泥强化脱水与重金属固定的瓜尔胶-无机盐杂化型绿色絮凝剂及其制备方法;陆纯,徐祖信,董滨,陈思思,王美,曾一帆,崔梦珂;CN202110134249.1;
(16)基于电子传递耦合微生物电解池强化厌氧消化装置与方法;戴晓虎,李磊,高君,董滨,戴翎翎;CN202011184885.7;
一种实现源头清洁防疫与资源化的生活垃圾生态化智能收集方法;董滨,肖婷婷,陈思思,王洁;CN202010181697.2;
(17)一种逐级调节pH值的污泥脱砂方法及系统;陈思思,高君,陈仁杰,肖婷婷,董滨;CN202011294751.0;
(18)一种一体化臭氧消毒及强化抗生类药物降解的医疗废水处理方法;董滨,李昕,沈丹妮;CN202010248704.6;
(19)一种污泥绿色脱水药剂的制备方法及使用方法;董滨,陈仁杰,邱瞧清,李昕,陈思思,沈丹妮,戴晓虎;CN201910329863.6;
(20)一种利用餐厨垃圾预醇化强化污泥厌氧消化的方法;戴晓虎,李磊,高君,许颖,董滨,戴翎翎,刘志刚;CN202010893337.5;
(21)一种基于水热前处理的污泥高效能源化处理方法;董滨,陈仁杰,邱瞧清,李昕,陈思思,沈丹妮,戴晓虎;CN202010039941.1;
(22)一种利用厨余垃圾协同强化剩余污泥厌氧生物酸化与低温水热耦合进行污泥脱水的方法;董滨,陈思思,薛冰,杨早,孙相娟,文俊博,熊胡安赫,胡世沛;CN202010311503.6;
(23)一种强化污泥中蛋白质深度降解的方法;陈思思,董滨,高君;CN202010595395.X;
(24)一种实现源头清洁防疫与资源化的生活垃圾生态化智能收集厢房;董滨,肖婷婷,陈思思,王洁;CN202020323235.5;
(25)一种利用臭氧处理从污泥中提取蛋白质的方法;董滨,陈思思,薛冰,肖婷婷;CN201911349261.3;
(26)一种快速、准确测定沼液中亚硫酸根、硫酸根、硫代硫酸根的方法;董滨,熊南安,卢怡清,王有晴,于晓庆,夏兆辉,孟金凤,戴晓虎;CN201610978059.7;
(27)一种微生物后处理深度提升醋糟厌氧发酵产甲烷潜力的方法;戴晓虎,于春晓,李宁,张丽明,戴翎翎,董滨;CN201610637795.6;
(28)一种适用于油田注聚采油污水的催化混凝药剂的制备方法;董滨,沈丹妮,金波;CN201610858080.3;
(29)一种快速启动污泥超高温厌氧消化系统的方法;戴晓虎,于春晓,李宁,戴翎翎,董滨;CN201610658452.8;
(30)一种利用牛粪快速启动污泥超高温厌氧消化系统的方法;戴晓虎,李宁,于春晓,戴翎翎,董滨;CN201610661847.3;
(31)定量检测污泥中含硫氨基酸的方法;董滨,熊南安,卢怡清,王有晴,于晓庆,夏兆辉,孟金凤,戴晓虎;CN201610978550.X;
(32)一种高效利用污泥中碳源的污水处理工艺;戴晓虎,李宁,于春晓,戴翎翎,董滨;CN201610323825.6;
(33)一种耐污染型大容量大孔弱酸树脂的合成方法;董滨,金波,沈丹妮;CN201510529663.7;
(34)一种有效控制膜污染的厌氧导电陶瓷膜生物反应装置及方法;戴晓虎,李宁,于春晓,严寒,戴翎翎,董滨;CN201610218096.8;
(35)一种耐污染型深度软化螯合树脂的合成方法;董滨,金波,沈丹妮;CN201510529664.1;
(36)利用电动力学法去除污泥中重金属暨同步深度脱水装置;戴晓虎,李宁,严寒,戴翎翎,董滨;CN201510365507.1;
(37)一种污泥负载铁多相光Fenton催化材料及其制备方法;戴晓虎,院士杰,戴翎翎,段妮娜,董滨;CN201410542942.2;
一种基于调质技术的含油污泥处理方法;董滨,沈丹妮,翟小雨,丁月玲,刘明昊,孟金凤;CN201610392962.5
(38)一种电镀废水回用设备及其处理方法;董滨,张科锋,靳慧霞,沈丹妮,孟金凤,翟小雨,丁月玲,刘明昊;CN201510135397.X
(39)一种能控制氧化还原电位促进污泥干法厌氧发酵的装置及方法;戴晓虎,李宁,严寒,戴翎翎,董滨;CN201410484380.0
(40)一种高效节能降耗及资源回收的污水处理方法;戴晓虎,李宁,刘文静,戴翎翎,董滨;CN201510018939.5;
(41)一种填装耐污染型软化树脂的离子交换反应塔;董滨,许颖,沈丹妮;CN201520649557.8;
(42)一种快速判断污泥可生化性及稳定性的方法;戴晓虎,刘晓光,董滨;CN201410143336.3;
(43)一种多级厌氧消化强化产气的方法;戴晓虎,董滨,盖鑫,赵玉欣,高鹏,叶宁,罗凡,戴翎翎;CN201310500670.5;
(44)一种分质利用河水梯级养殖鱼虾的装置的养殖方法;彭友新,李传岭,董滨;CN201310509463.6;
(45)热碱联合预处理提高剩余污泥产甲烷的方法;张栋,高鹏,贾舒婷,董滨,戴晓虎;CN201310066365.X;
(46)一种污泥强化预处理方法;董滨,罗凡,戴晓虎;CN201210555918.3;
(47)一种城市污泥厌氧发酵产沼气的快速启动方法;董滨,沙超,段妮娜,戴翎翎,戴晓虎;CN201210187662.5;
(48)一种城市污泥除砂消毒预处理的装置与方法;戴晓虎,董滨,李平,吴志根,顾国维,罗伯特·迪希特;CN201210234319.1;
(49)一种用于污泥水热预处理的装置及方法;戴晓虎,董滨,李平,吴志根,顾国维,罗伯特·迪希特;CN201210234194.2;
(50)一种提高脱水污泥流动性的浆化降粘方法;董滨,段妮娜,戴翎翎,戴晓虎;CN201210404649.0;
(51)一种高含固生物污泥连续热水解装置与方法;董滨,戴翎翎,段妮娜,戴晓虎;CN201110319442.9;
(52)一种添加餐厨垃圾提高污泥干法发酵稳定性的方法;董滨,段妮娜,何群彪,戴晓虎;CN201010535634.9;
(53)一种城市污泥及有机质干法厌氧发酵产沼气的方法及装置;戴晓虎,董滨, 吴星五, 李国建, 周增炎, 高廷耀;CN201010288462.X;
(54)一种城市污泥干法厌氧发酵产沼气的方法;董滨,段妮娜, 戴晓虎;CN201010288896.X;
(55)一种用于加快城市污泥干法发酵进程的循环接种方法;董滨,段妮娜,周玲玲,严媛媛,戴晓虎;CN201010288494.X;
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