任南琪的学术简介

1. 任南琪的学术简介

 [1]任南琪、王爱杰、马放著. 产酸发酵微生物生理生态学. 科学出版社，2005[2]任南琪、王爱杰编著. 厌氧生物技术原理与应用. 化学工业出版社，2004[3]任南琪、马放等编著. 污染控制微生物学原理与应用. 化学工业出版社，2003[4]任南琪、王宝贞著. 有机废水发酵法生物制氢技术—原理与方法，黑龙江科学技术出版社，1995[5]Ren NQ,Liu BF,Ding J,Xie GJ. Hydrogen production with R. faecalis RLD-53 isolated from freshwater pond sludge. BIORESOURCE TECHNOLOGY,2009,100（1）： 484-487[6] Liu XL,Ren NQ,Yuan YX. Performance of a periodic anaerobic baffled reactor fed on chinese traditional medicine industrial wastewater. BIORESOURCE TECHNOLOGY,2009,100（1）： 104-110[7] Guo WQ,Ren NQ,Wang XJ,Xiang WS,Ding J,You Y,Liu BF. Optimization of culture conditions for hydrogen production byEthanoligenens harbinenseB49 using response surface methodology. BIORESOURCE TECHNOLOGY,2009,100（3）： 1192-1196[8] Liu BF,Ren NQ,Ding J,Xie GJ,Cao GL. Enhanced photo-H2 production ofR. faecalisRLD-53 by separation of CO2 from reaction system. BIORESOURCE TECHNOLOGY,2009,100（3）： 1501-1504[9] Liu BF,Ren NQ,Ding J,Xie GJ,Guo WQ. The effect of Ni2+,Fe2+ and Mg2+ concentration on photo-hydrogen production byRhodopseudomonas faecalisRLD-53. INTERNATIONAL Journal OF HYDROGEN ENERGY,2009,34（2）： 721-726[10] Ding J,Ren NQ,Chen LG,Ding L. On-line coupling of solid-phase extraction to liquid chromatography–tandem mass spectrometry for the determination of macrolide antibiotics in environmental water. ANALYTICA CHIMICA ACTA,2009,634（2）： 215-221[11] Chen C,Wang AJ,Ren NQ,Lee DJ,Lai JY. High-ratedenitrifyingsulfide removal process in expanded granular sludge bed reactor. BIORESOURCE TECHNOLOGY,2009,100（7）： 2316-2319[12] Wang X,Feng YJ,Ren NQ,Wang HM,Lee H,Li N,Zhao QL. Accelerated start-up of two-chambered microbial fuel cells: Effect of anodic positive poised potential. ELECTROCHIMICA ACTA,2009,54（3），1109-1114[13] Song ZW,Ren NQ,Zhang K,Tong LY. Influence of temperature on the characteristics of aerobic granulation in sequencing batch airlift reactors. JOURNAL OF ENⅥRONMENTAL SCIENCE-CHINA,2009,21（3）： 273-278[14]Ren NQ,Guo WQ,Wang XJ,Xiang WS,BF Liu,Wang XZ,Ding J,Chen ZB. Effects of different pretreatment methods on fermentation types and dominant bacteria for hydrogen production. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2008,33（16）： 4318-4324[15]Ren NQ,Sverko E,Li YF,Zhang Z,Harner T,Wang DG,Wan XN,McCarry BE. Levels and isomer profiles of Dechlorane Plus in Chinese air. ENⅥRONMENTAL SCIENCE & TECHNOLOGY,2008,42（17）： 6476-6480[16]Ren NQ,Wang AJ,Gao LF,Xin L,Lee DJ,Su A. Bioaugmented hydrogen production from carboxymethyl cellulose and partially delignified corn stalks using isolated cultures. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2008,33（19）： 5250-5255[17]Ren NQ,Liu BF,Ding J,Guo WQ,Cao GL,Xie GJ. The effect of butyrate concentration on photo-hydrogen production from acetate byRhodopseudomonas faecalisRLD-53. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2008,33（21）： 5981-5985[18]Ren NQ,Cao GL,Wang AJ,Lee DJ,Guo WQ,Zhu YH. Dark fermentation of xylose and glucose mix using isolatedThermoanaerobacterium thermosaccharolyticumW16. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2008,33（21）： 6124-6132[19] Zhang Z,Liu LY,Li YF,Wang DG,Jia HL,Harner T,Sverko E,Wan XN,Xu DD,Ren NQ,Ma JM,Pozo K. Analysis of polychlorinated biphenyls in concurrently sampled Chinese air and surface soil. ENⅥRONMENTAL SCIENCE & TECHNOLOGY,2008,42（17）： 6514-6518[20] Xing DF,Ren NQ,Rittmann BE. Genetic Diversity of Hydrogen-Producing Bacteria in an Acidophilic Ethanol-H2-Coproducing System,Analyzed Using the [Fe]-Hydrogenase Gene. APPLIED AND ENⅥRONMENTAL MICROBIOLOGY,2008,74: 1232–1239[21] Chen ZB,Ren NQ,Wang AJ,Zhang ZP,Shi Y. A novel application of TPAD–MBR system to the pilot treatment of chemical synthesis-based pharmaceutical wastewater. WATER RESEARCH,2008,42: 3385-3392[22] Chen ZB,Hu DX,Ren NQ,Zhang ZP. Simultaneous removal of organic substances and nitrogen in pilot-scale submerged membrane bioreactors treating digested traditional Chinese medicine wastewater. INTERNATIONAL BIODETERIORATION & BIODEGRADATION,2008,62（3）： 250-256[23] Li JZ,Ren NQ,Li BK,Qin Z,He JG. Anaerobic biohydrogen production from monosaccharides by a mixed microbial community culture. BIORESOURCE TECHNOLOGY,2008,99（14）： 6528-6537[24] Zhao YG,Ren NQ,Wang AJ. Contributions of fermentative acidogenic bacteria and sulfate-reducing bacteria to lactate degradation and sulfate reduction. CHEMOSPHERE,2008,72（2）： 233-242[25] Guo WQ,Ren NQ,Wang XJ,Xiang WS,Meng ZH,Ding J,Qu YY,Zhang LS. Biohydrogen production from ethanol-type fermentation of molasses in an expanded granular sludge bed (EGSB) reactor. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2008,33（19）： 4981-4988[26] Guo WQ,Ren NQ,Chen ZB,Liu BF,Wang XJ,Xiang WS,Ding J. Simultaneous biohydrogen production and starch wastewater treatment in an acidogenic expanded granular sludge bed reactor by mixed culture for long-term operation. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2008,33（24）： 7397-7404[27] You Y,Ren NQ,Wang AJ,Ma F,Gao L,Peng YZ,Lee DJ. Use of waste fermenting liquor to produce bioflocculants with isolated strains. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2008,33（13）： 3295-3301[28] Xu LY,Ren NQ,Wang XZ,Jia YF. Biohydrogen production byethanoligenens harbinenseB49: Nutrient optimization. International Journal of Hydrogen Energy,2008,33（23）： 6962-6967[29] Chen C,Ren NQ,Wang AJ,Yu ZG,Lee DJ. Simultaneous biological removal of sulfur,nitrogen and carbon using EGSB reactor. APPLIED MICROBIOLOGY & BIOTECHNOLOGY,2008,78（6）： 1057-1063[30] Chen C,Ren NQ,Wang AJ,Yu ZG,Lee DJ. Microbial community of granules in expanded granular sludge bed reactor for simultaneous biological removal of sulfate,nitrate and lactate. APPLIED MICROBIOLOGY AND BIOTECHNOLOGY,2008,79（6）： 1071-1077[31] Xing DF,Ren NQ,Wang AJ,Li QB,Feng YJ,Ma F. Continuous hydrogen production of auto-aggregativeEthanoligenens harbinenseYUAN-3 under non-sterile condition. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2008,33（5）： 1489-1495[32] Wang AJ,Ren NQ,Shi YG,Lee DJ. Bioaugmented hydrogen production from microcrystalline cellulose using co-culture -clostridium acetobutylicumX-9 andEthanoigenens harbinenseB-49. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2008,33（2）： 912-917[33] Wang AJ,Ren NQ,Wang X,Lee DJ. Enhanced sulfate reduction with acidogenic sulfate-reducing bacteria. JOURNAL OF HAZARDOUS MATERIALS,2008,154（1-3）： 1060-1065[34] Liu WZ,Wang AJ,Ren NQ,Zhao XY,Liu LH,Yu ZG,Lee DJ. Electrochemically assisted biohydrogen production from acetate. ENERGY & FUELS,2008,22（1）： 159-163[35] Chen LZ,Ren NQ,Xiong DH. Experimental study on performance of a continuous centrifugal concentrator in reconcentrating fine hematite. INTERNATIONAL JOURNAL OF MINERAL PROCESSING,2008,87（1-2）： 9-16[36] Liu XM,Ren NQ,Song FN,Yang CP,Wang AJ. Recent advances in fermentative biohydrogen production. PROGRESS IN NATURAL SCIENCE,2008,18（3）： 253-258[37] Song ZW,Ren NQ. Properties and coagulation mechanisms of polyferric silicate sulfate with high concentration. JOURNAL OF ENⅥRONMENTAL SCIENCES-CHINA,2008,20（2）： 129-134[38] Chen C,Wang AJ,Ren NQ,Kan HJ,Lee DJ. Biological breakdown of denitrifying sulfide removal process in high-rate expanded granular bed reactor. APPLIED MICROBIOLOGY & BIOTECHNOLOGY,2008,81: 765-770[39]Ren NQ,Xing DF,Rittmann BE,Zhao LH,Xie TH,Zhao X. Microbial community structure of ethanol type fermentation in bio-hydrogen production. ENⅥRONMENTAL MICROBIOLOGY,2007,9 （5）： 1112-1125[40]Ren NQ,Que MX,Li YF,Liu Y,Wan XN,Xu DD,Sverko E,Ma JM. Polychlorinated Biphenyls in Chinese Surface Soils. ENⅥRONMENTAL SCIENCE & TECHNOLOGY,2007,41: 3871-3876[41]Ren NQ,Chua H,Chan SY,Tsang YF,Wang YJ,Sin N. Assessing optimal fermentation type for bio-hydrogen production in continuous-flow acidogenic reactors. BIORESOURCE TECHNOLOGY,2007,98 （9）： 1774-1780[42]Ren NQ,Chua H,Chan SY,Tsang YF,Sin N. Effects of COD/SO4 ratios on an acidogenic sulfate-reducing reactor. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2007,46 （6）： 1661-1666[43]Ren NQ,Yan XF,Chen ZB,Hu DX,Gong ML,Guo WQ. Feasibility and simulation model of a pilot scale membrane bioreactor for wastewater treatment and reuse from Chinese traditional medicine. JOURNAL OF ENⅥRONMENTAL SCIENCES-CHINA,2007,19 （2）： 129-134[44] Wang XJ,Ren NQ,Xiang WS,Guo WQ. Influence of gaseous end-products inhibition and nutrient limitations on the growth and hydrogen production by hydrogen-producing fermentative bacterial B49. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2007,32 （6）： 748-754[45] Li YF,Ren NQ,Chen Y,Zheng GX. Ecological mechanism of fermentative hydrogen production by bacteria. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2007,32 （6）： 755-760[46] Liu XL,Ren NQ,Wan CL. Hydrodynamic characteristics of a four-compartment periodic anaerobic baffled reactor. JOURNAL OF ENⅥRONMENTAL SCIENCES-CHINA,2007,19: 1159-1165[47] Liu XL,Ren NQ,Ma F. Effect of powdered activated carbon on Chinese traditional medicine wastewater treatment in submerged membrane bioreactor with electronic control backwashing. JOURNAL OF ENⅥRONMENTAL SCIENCES-CHINA,2007,19: 1037-1042[48]Ren NQ,Lin HL,Zhang K,Duan ZJ,Lin M. Cloning,expression,and characterization of an acetate kinase from a high rate of biohydrogen bacterial strainEthanoligenens sp hitB49. CURRENT MICROBIOLOGY,2007,55（2）： 167-172[49] ZHAO YG,WANG AJ,REN NQ,ZHAO QS,ZADSAR M. Impacts of Alkalinity Drops on Shifting of Functional Sulfate-Reducers in a Sulfate-Reducing Bioreactor Characterized by FISH. CHINESE JOURNAL OF CHEMICAL ENGINEERING,2007,15（2）： 276-280[50] Li JZ,Li BK,Zhu GF,Ren NQ,Bo LX,He JG. Hydrogen production from diluted molasses by anaerobic hydrogen producing bacteria in an anaerobic baffled reactor (ABR). INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2007,32: 3274-3283[51]Ren NQ,Li JZ,Li BK,Wang Y,Liu SR. Biohydrogen production from molasses by anaerobic fermentation with a pilot-scale bioreactor system. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2006,31 （15）： 2147-2157[52]Ren NQ,Gong ML. Acclimation strategy of a biohydrogen producing population in a continuous-flow reactor with carbohydrate fermentation. ENGINEERING IN LIFE SCIENCES,2006,6 （4）： 403-409[53]Ren NQ,Zhao YG,Wang AJ,Gao CY,Shang HX,Liu YW,Wan CL. The effect of decreasing alkalinity on microbia community dynamics in a sulfate-reducing bioreactor as analyzed by PCR-SSCP. SCIENCE IN CHINA SERIES C-LIFE SCIENCES,2006,49 （4）： 370-378[54] Xing DF,Ren NQ,Li OB,Lin M,Wang AJ,Zhao LH. Ethanoligenens harbinense gen. nov.,sp nov.,isolated from molasses wastewater. INTERNATIONAL JOURNAL OF SYSTEMATIC AND EVOLUTIONARY MICROBIOLOGY,2006,56: 755-760[55]Ren NQ,Chen ZB,Wang XJ,Hu DX,Wang AJ. Optimized operational parameters of a pilot scale membrane bioreactor for high-strength organic wastewater treatment. INTERNATIONAL BIODETERIORATION & BIODEGRADATION,2005,56 （4）： 216-223[56]Ren NQ,Chen ZB,Wang AJ,Hu DX. Removal of organic pollutants and analysis of MLSS-COD removal relationship at different HRTs in a submerged membrane bioreactor. INTERNATIONAL BIODETERIORATION & BIODEGRADATION,2005,55 （4）： 279-284[57] Li YF,Ren NQ,Yang CP,Wang AJ,Zadsar M,Li JZ,Hu LJ. Molecular characterization and hydrogen production of a new species of anaerobe. JOURNAL OF ENⅥRONMENTAL SCIENCE AND HEALTH PART A,2005,40 （10）： 1929-1938[58] Wang AJ,Du DZ,Ren NQ,van Groenestijn JW. An innovative process of simultaneous desulfurization and denitrification by Thiobacillus denitrificans. JOURNAL OF ENⅥRONMENTAL SCIENCE AND HEALTH PART A,2005,40 （10）： 1939-1949[59] Gong ML,Ren NQ,Xing DF. Start-up of bio-hydrogen production reactor seeded with sewage sludge and its microbial community analysis. WATER SCIENCE AND TECHNOLOGY,2005,52 （1-2）： 115-121[60] Wang AJ,Du DZ,Ren NQ,Cheng X,Liu CS. Tentative study on a new way of simultaneous desulfurization and denitrification. CHINESE JOURNAL OF CHEMICAL ENGINEERING,2005,13 （3）： 422-425[61] Xing DF,Ren NQ,Gong ML,Li JZ,Li QB. Monitoring of microbial community structure and succession in the biohydrogen production reactor by denaturing gradient gel electrophoresis (DGGE). SCIENCE IN CHINA SERIES C-LIFE SCIENCES,2005,48 （2）： 155-162[62] Liu M,Ren NQ,Chen Y,Zhu WF,Ding J. Conversion regular patterns of acetic acid,propionic acid and butyric acid in UASB reactor. JOURNAL OF ENⅥRONMENTAL SCIENCES-CHINA,2004,16 （3）： 387-391[63]Ren NQ,Zhao D,Chen XL,Li JZ. Mechanism and controlling strategy of the production and accumulation of propionic acid for anaerobic wastewater treatment. SCIENCE IN CHINA SERIES B-CHEMISTRY,2002,45 （3）： 319-327[64]Ren NQ,Wang BZ,Huang JC. Ethanol-type fermentation from carbohydrate in high rate acidogenic reactor. BIOTECHNOLOGY AND BIOENGINEERING,1997,54 （5）： 428-433[65] Huang JL,Wang L,Ren NQ,Liu XL,Sun RF,Yang GL. Disinfection effect of chlorine dioxide on viruses,algae and animal planktons in water. WATER RESEARCH,1997,31 （3）： 455-460[66] Huang JL,Wang L,Ren NQ,Ma F,Juli. Disinfection effect of chlorine dioxide on bacteria in water. WATER RESEARCH,1997,31 （3）： 607-613 他针对难降解工业废水处理难题，引入了产酸发酵微生物生理生态学理论，建立了废水处理产酸发酵类型的人工控制方法，提出了完全氧化型硫酸盐废水处理新工艺。此项研究曾两次获得国家自然科学基金委资助。该研究成果获中科院专著出版基金资助，拟出版专著1部。该研究成果针对难降解有机废水的水质特征，将产酸发酵微生物生理生态学研究成果应用于4项建设部科技成果重点推广项目示范工程。他结合中国国情开发出3套适合中国国情高效、经济、节能的高浓度废水生物处理集成化技术，建立了相应的专有技术推广平台和设备加工制造平台，并应用于15项示范工程，该技术获国家科技进步二等奖和建设部华厦科技进步一等奖。该集成化技术攻克了印染、制药、化工、发酵等行业排放的废水处理投资和运行费用高、处理效率低、运行不稳定等亟待解决的难题。已在淮河、太湖、辽河和松花江等流域建立起15项高浓度有机废水生物处理工程，工程累计投资约1.85亿元。该成果获得国家科技进步二等奖。

2. 任南琪的获奖情况

自强不息、勤耕不辍是他坚持的一条准则。主持国家自然科学基金等省部级以上项目19项（国家自然科学基金委资助5项），获国家科技进步二等奖1项，省部级科技进步奖6项，获省级教学成果奖2项；在国内外核心以上刊物上发表论文170余篇，专著和编著7部，申请和获得发明专利7项，实用新型专利5项。已培养出博士后6名，博士15名，硕士37名。他提出了以厌氧活性污泥为菌种的有机废水发酵法生物制氢技术（1990年），1991年获得国家自然科学基金委资助，1995年获黑龙江省科技进步二等奖，发展了生物产氢理论，出版专著1部。该成果被评为“2000年中国十大科技进展新闻”，并创建了世界上首例生物制氢示范工程。