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倪晉仁院士做客南科大講堂談河流治理倪晉仁，男，1962年8月生，山西山陰安榮村人，全國(guó)政協(xié)委員。1982年畢業(yè)于我校治河專業(yè)，全國(guó)人口資源環(huán)境委員會(huì)委員、特邀國(guó)家土地監(jiān)察專員、國(guó)際水沙科學(xué)協(xié)會(huì)（IASWS）常務(wù)理事、國(guó)際水力學(xué)會(huì)《International Journal of River Basin Management》編委、《科學(xué)通報(bào)》特邀編輯、加拿大Regina大學(xué)兼職教授、《應(yīng)用基礎(chǔ)與工程科學(xué)學(xué)報(bào)》編委會(huì)主任、中國(guó)自然資源學(xué)會(huì)理事等。獲2項(xiàng)國(guó)家教委科技進(jìn)步獎(jiǎng)二等獎(jiǎng)，還曾獲首屆全國(guó)十佳博士后獎(jiǎng)、中國(guó)青年科技獎(jiǎng)、錢寧泥沙科學(xué)個(gè)人獎(jiǎng)等，入選國(guó)家“百千萬(wàn)人才工程”。

環(huán)境水利專家。北京大學(xué)教授。1962年8月生于山西山陰縣，籍貫山西山陰。1982年畢業(yè)于武漢水利電力學(xué)院，1985年和1989年于清華大學(xué)獲碩士和博士學(xué)位。

主要從事流域水沙運(yùn)動(dòng)理論、水體污染控制及河流綜合治理方面的研究。提出了適用范圍廣泛的紊動(dòng)水流中懸移質(zhì)泥沙垂直分布公式，實(shí)現(xiàn)了了從低濃度到高濃度泥沙分布的微觀描述。針對(duì)河流氮污染源控制的難題，發(fā)現(xiàn)了具有特殊脫氮功能的系列高效微生物菌株，開(kāi)發(fā)了能夠在單一好氧條件下實(shí)現(xiàn)氨氮與硝氮同時(shí)脫除的一步法脫氮工藝。提出了流域水沙災(zāi)害、河流功能性斷流、河流多物質(zhì)通量等新認(rèn)識(shí)，為河流多功能調(diào)控與生態(tài)環(huán)境功能保護(hù)提供了關(guān)鍵技術(shù)。曾獲國(guó)家技術(shù)發(fā)明二等獎(jiǎng)、國(guó)家科技進(jìn)步二等獎(jiǎng)、教育部科技進(jìn)步一等獎(jiǎng)等。

倪晉仁，男，漢族，1962年8月生，山西山陰人。1978~1982年在武漢大學(xué)水利學(xué)院治河工程系念大學(xué)；1982~1989年在清華大學(xué)水利工程系先后師從黃萬(wàn)里、錢寧教授攻讀碩士、博士學(xué)位；1989~1991年在北京大學(xué)城市與環(huán)境系做博士后研究。曾在英國(guó)牛津大學(xué)工程科學(xué)系、日本北海道大學(xué)土木工程系和瑞士聯(lián)邦蘇黎世高等理工學(xué)院（ETH）環(huán)境工程研究所做訪問(wèn)學(xué)者。1991年在北京大學(xué)被聘為副教授，1992年被聘為教授。

致力于推進(jìn)北京大學(xué)環(huán)境工程學(xué)科建設(shè)，組建了北京大學(xué)環(huán)境工程研究所（1995）、教育部水沙科學(xué)重點(diǎn)實(shí)驗(yàn)室（2000）、環(huán)境學(xué)院環(huán)境工程系（2002）、環(huán)境工程實(shí)驗(yàn)室（2004），結(jié)合環(huán)境科學(xué)與工程學(xué)科整合的優(yōu)勢(shì)獲得了學(xué)科博士點(diǎn)；啟動(dòng)了深圳研究生院環(huán)境工程專業(yè)學(xué)科建設(shè)（2004），倡議并組建了國(guó)立新加坡大學(xué)-北京大學(xué)-牛津大學(xué)（SPO）水與環(huán)境技術(shù)平臺(tái)（2010），建立了北京市新型污水深度處理工程技術(shù)研究中心（2012），初步形成了北京大學(xué)環(huán)境工程學(xué)科研究團(tuán)隊(duì)。

開(kāi)設(shè)《環(huán)境科學(xué)與工程前沿》等4門課程。主要致力于水沙兩相流理論及其在水環(huán)境模擬、河流動(dòng)力地貌的拓展研究，同時(shí)開(kāi)展水體污染控制理論與治理技術(shù)方面的探索。

提出了水沙兩相流中懸浮顆粒垂直分布的統(tǒng)一公式，使得Rouse等10余家著名公式成為特例；從動(dòng)理論出發(fā)實(shí)現(xiàn)了從低到高顆粒濃度分布的統(tǒng)一描述，提出并解釋了兩種不同分布類型形成的原因；將兩相流研究方法擴(kuò)展應(yīng)用于風(fēng)沙運(yùn)動(dòng)、泥石流運(yùn)動(dòng)研究，構(gòu)建了大范圍、多尺度的流域漸發(fā)性和突發(fā)性泥沙災(zāi)害的快速評(píng)估方法體系。

基于多相流理論拓展建立了物理-化學(xué)-生物耦合過(guò)程的模擬方法，實(shí)現(xiàn)了活性污泥體系的多相流模擬與優(yōu)化。帶領(lǐng)團(tuán)隊(duì)發(fā)現(xiàn)并培養(yǎng)了活性污泥系統(tǒng)中常溫、低溫、變氧、高鹽等不同環(huán)境下具有特殊脫氮除磷功能的PCN系列微生物菌株，實(shí)現(xiàn)了單一好氧條件下的異養(yǎng)硝化-好氧反硝化除磷，據(jù)此提出了節(jié)地、節(jié)能、節(jié)資、高效的一步法去除碳氮磷NICH工藝，突破了傳統(tǒng)脫氮除磷工藝的瓶頸；進(jìn)一步針對(duì)水體中難降解有機(jī)污染物的去除，開(kāi)展了摻硼金剛石膜電極電化學(xué)氧化機(jī)理的研究，對(duì)羥基自由基形態(tài)的影響進(jìn)行了系統(tǒng)探索；將生化與物化方法結(jié)合形成的典型行業(yè)廢水和垃圾滲濾液處理的成套工藝得到工程檢驗(yàn)。

將污染源控制與河流功能改善目標(biāo)密切結(jié)合，提出了河流功能性斷流、多沙河流生態(tài)環(huán)境需水、輸沙用水效率調(diào)控等概念與相應(yīng)的描述方法；并從流域地貌的宏觀角度出發(fā)，較為系統(tǒng)地提出了面向生態(tài)的河流綜合分類、河流健康診斷、受損河流治理與生態(tài)修復(fù)方法。

主持了國(guó)家自然科學(xué)基金優(yōu)秀中青年人才專項(xiàng)基金項(xiàng)目（1994）、國(guó)家杰出青年基金項(xiàng)目（1996）、歐盟科技合作項(xiàng)目（1996~2000）、國(guó)家自然科學(xué)基金重大項(xiàng)目（1997~2001）、加拿大CIDA合作項(xiàng)目（1999~2005）、國(guó)家重點(diǎn)基礎(chǔ)研究973課題（2000~2004，2007~2011）、國(guó)家11-5科技支撐課題（2006~2010）、國(guó)家水體污染控制與治理科技重大專項(xiàng)項(xiàng)目（2009~2012）、國(guó)家自然科學(xué)基金NSFC-JST重大國(guó)際合作研究項(xiàng)目（2012~）等30余項(xiàng)科技項(xiàng)目。發(fā)表論文200余篇，其中在SCI收錄的國(guó)際雜志發(fā)表論文150余篇，被SCI他引2000余次、CNKI《中國(guó)引文數(shù)據(jù)庫(kù)》他引6000余次。出版專著5部，譯著1部，獲得授權(quán)國(guó)家發(fā)明專利30余項(xiàng)。

曾獲國(guó)際泥沙研究中心錢寧泥沙科學(xué)獎(jiǎng)（1992）、中國(guó)地理學(xué)會(huì)青年地理科技獎(jiǎng)（1993）、中國(guó)水利學(xué)會(huì)優(yōu)秀青年科技獎(jiǎng)（1993）、首屆全國(guó)十佳博士后獎(jiǎng)（1994）、中國(guó)青年科技獎(jiǎng)（1994）、入選國(guó)家人事部“百千萬(wàn)人才工程”（1995）、國(guó)務(wù)院政府特殊津貼（1995）、全國(guó)優(yōu)秀博士后（2005）、北京市優(yōu)秀教師（2006）等，領(lǐng)銜獲得教育部科學(xué)技術(shù)進(jìn)步獎(jiǎng)一等獎(jiǎng)（2007, 2008）、第41屆日內(nèi)瓦國(guó)際發(fā)明展金獎(jiǎng)和FIRI特別獎(jiǎng)、國(guó)家科技進(jìn)步獎(jiǎng)二等獎(jiǎng)（2010）、國(guó)家技術(shù)發(fā)明二等獎(jiǎng)（2013），指導(dǎo)博士生獲得全國(guó)百篇優(yōu)秀博士論文獎(jiǎng)（2013）。

曾任第九屆、十屆、十一屆全國(guó)政協(xié)委員，人口資源環(huán)境委員會(huì)委員，國(guó)家自然科學(xué)基金委員會(huì)第六、七屆學(xué)科評(píng)審組委員，國(guó)際水沙科學(xué)協(xié)會(huì)（IASWS）常務(wù)理事、中國(guó)經(jīng)濟(jì)社會(huì)理事會(huì)理事、中華環(huán)保聯(lián)合會(huì)理事、東北亞環(huán)境-文化理事會(huì)理事、中國(guó)計(jì)量測(cè)試學(xué)會(huì)常務(wù)理事、地理學(xué)會(huì)理事、自然資源學(xué)會(huì)理事、中國(guó)水土保持監(jiān)測(cè)專業(yè)委員會(huì)副主任等。擔(dān)任教育部科技委地學(xué)與資源環(huán)境學(xué)部委員、牛津大學(xué)客座教授，《應(yīng)用基礎(chǔ)與工程科學(xué)學(xué)報(bào)》主編，以及10余個(gè)國(guó)內(nèi)外雜志的編委。

研究領(lǐng)域

水沙科學(xué)、環(huán)境工程

科研項(xiàng)目

國(guó)家優(yōu)秀中青年人才專項(xiàng)基金“泥石流的結(jié)構(gòu)兩相流模型”（59421004, 1995-1997 ）

主持的代表性項(xiàng)目：

l國(guó)家杰出青年基金項(xiàng)目“高濃度固液兩相流和風(fēng)沙運(yùn)動(dòng)理論研究”（49625101, 1997-2001）

l國(guó)家自然科學(xué)基金重大項(xiàng)目“江河泥沙形成機(jī)理及其防治研究”（59890200, 1997-2002）

l國(guó)家重點(diǎn)基礎(chǔ)研究規(guī)劃項(xiàng)目課題“黃河斷流對(duì)河流系統(tǒng)生態(tài)環(huán)境功能的影響”（G1999043603, 1999-2004）

l國(guó)家重點(diǎn)基礎(chǔ)研究規(guī)劃項(xiàng)目課題“流域產(chǎn)沙機(jī)制與水沙運(yùn)移規(guī)律研究”（2007CB407202, 2007-2011）

l歐盟科技項(xiàng)目“可持續(xù)的水環(huán)境管理策略研究”（INCO-DC-ERBIC18CT960128, 1997-2000）

l加拿大CIDA科技合作項(xiàng)目“防洪、生態(tài)保護(hù)和可持續(xù)發(fā)展研究”（UPCD-Tier2-Project 098/S47074-296,項(xiàng)目中方負(fù)責(zé)人, 1999-2005）

l中國(guó)-歐盟環(huán)境管理合作項(xiàng)目（EMCP）課題“水資源管理機(jī)制建設(shè)與河流生態(tài)修復(fù)研究”（ALA/CHN/96/6， 2004-2005）

l國(guó)家科技支撐計(jì)劃課題“南水北調(diào)中線工程丹江口水源區(qū)黃姜加工新工藝關(guān)鍵技術(shù)研究”（2006BAB04A14, 2006-2010）

l國(guó)家水體污染控制與治理科技重大專項(xiàng)課題“湘江水環(huán)境重金屬污染整治關(guān)鍵技術(shù)研究與綜合示范”（2008ZX07212-001, 2009-2012）

l國(guó)家水體污染控制與治理科技重大專項(xiàng)項(xiàng)目“特殊類型河流污染防治與水質(zhì)改善關(guān)鍵技術(shù)研究與示范”（2008ZX07212, 2009-2012）

l國(guó)家自然科學(xué)基金委員會(huì)重大國(guó)際合作研究項(xiàng)目（中日NSFC-JST)“焦化廢水中高氨氮難降解有機(jī)物去除的生物強(qiáng)化機(jī)理研究”（21261140336/B070302, 2012-2015）

代表性論文

部分國(guó)際雜志論文（通訊作者或第一作者）：

水處理理論與技術(shù)（*為通訊作者）

l Shiqiang Zou, Shuo Yao, Jinren Ni*, High-efficient nitrogen removal by coupling enriched autotrophic-nitrification and aerobic-denitrification consortiums at cold temperature, Bioresource Technology, March 2014, 161: 288-296.

lMaosheng Zheng, Da He, Tao Ma, Qian Chen, Sitong Liu, Muhammad Ahmad, Mengyao Gui, Jinren Ni*, Reducing NO and N₂O emission during aerobic denitrification by newly isolated Pseudomonas stutzeri PCN-1, Bioresource Technology, 2014, 162: 80-88.

lLi Lei, Jinren Ni*, Three-dimensional three-phase model for simulation of hydrodynamics, oxygen mass transfer, carbon oxidation, nitrification and denitrification in an oxidation ditch, Water Research, Jan.2014, 53: 200-214.

lWen Liu, Jinren Ni*, Xiaochen Yin. Synergy of photocatalysis and adsorption for simultaneous removal of Cr(VI) and Cr(III) with TiO₂ and titanate nanotubes, Water Research, Jan. 2014, 53: 12-25.

lWen Liu, Alistair Borthwick, Xuezhao Li, Jinren Ni*, High photocatalytic and adsorptive performance of anatase-covered titanate nanotubes prepared by wet chemical reaction, Microporous and Mesoporous Materials, Jan. 2014, 186: 168-175.

lWen Liu, Pan Zhang, Alistair G.L. Borthwick, Hao Chen, Jinren Ni*, Adsorption mechanisms of thallium(I) and thallium(III) by titanate nanotubes: ion-exchange and co-precipitation, Journal of Colloidal and Interface Sciences, Feb. 2014, 423: 67-75.

lXiaochen Yin, Wen Liu, Jinren Ni *, Removal of coexisting Cr(VI) and 4-chlorophenol through reduction and Fenton reaction in a single system, Chemical Engineering Journal, Apr. 2014,248C: 89-97.

lShuo Yao, Jinren Ni*, Qian Chen, Alistair G.L. Borthwick, Enrichment and characterization of a bacteria consortium capable of heterotrophic nitrification and aerobic denitrification at low temperature, Bioresource Technology, Jan. 2013, 127: 151-157.

lShuo Yao, Jinren NI*, Tao Ma, Can Li, Heterotrophic nitrification and aerobic denitrification at low temperature by a newly isolated bacterium, Acinetobacter sp. HA2, Bioresource Technology, July 2013, 139: 80-86.

lTing Wang, Wen Liu, Nan Xu, Jinren Ni*, Adsorption and desorption of Cd(II) onto titanate nanotubes and efficient regeneration of tubular structures, Journal of Hazardous Materials, April 2013, 250-251:379-386

lLei Wang, Wen Liu, Ting Wang, Jinren Ni*, Highly efficient adsorption of Cr(VI) from aqueous solutions by amino-functionalized titanate nanotubes, Chemical Engineering Journal, June 2013, 225:153-163.

lGuanjun Niu, Wen Liu, Ting Wang, Jinren Ni*, Absorption of Cr(VI) onto amino-modified titanate nanotubes using 2-Bromoethylamine hydrobromide through SN2 reaction, Journal of Colloid and Interface Science, July 2013, 401: 133-140.

lWen Liu, Ting Wang, Alistair G.L. Borthwick, Yanqi Wang, Xiaochen Yin, Xuezhao Li, Jinren Ni*, Adsorption of Pb²⁺, Cd²⁺, Cu²⁺ and Cr³⁺ onto titanate nanotubes: competition and effect of inorganic ions, Journal: Science of the Total Environment, July 2013, 456-457: 171-180.

lLi Lei, Jinshui Sun, Alistair G.L. Borthwick, Yuan Fang, Jiupeng Ma, Jinren Ni*, Dynamic evaluation of intertidal wetland sediment quality in a bay system, Journal of Environmental Informatics, March 2013, 21(1): 10-20.

lWen Liu, Weiling Sun, Alistair G. L. Borthwick, Jinren Ni*, Comparison on aggregation and sedimentation of titanium dioxide, titanate nanotubes and titanate nanotubes-TiO2: Influence of pH, ionic strength and natural organic matter, Colloids and Surfaces A: Physicochemical and Engineering Aspects, October 2013, 434: 319-328.

lWen Liu, Chen Hao, Jinren Ni*, Mutual promotion mechanism for adsorption of coexisting Cr(III) and Cr(VI) onto titanate nanotubes, Chemical Engineering Journal, 2013, 232: 228-236.

Hongna Li, Jinren Ni*, Electrogeneration of disinfection byproducts at a boron-doped diamond anode with resorcinol as a model substance, Electrochimica Acta, 2012, 69: 268-274.

lXiuping Zhu, Jinren Ni*, Xuan Xing, Hongnan Li, Yi Jiang, Synergies between electrochemical oxidation and activated carbon adsorption in three-dimensional boron-doped diamond anode system, Electrochimica Acta , 2011, 56(3): 1270-1274.

lXiuping Zhu, Jinren NI*, Scale-up of B-doped diamond anode system for electrochemical oxidation of phenol simulated wastewater in batch mode, Electrochimica Acta, 2011, 56(25): 9439-9447.

lXiuping Zhu, Jinren Ni*, The improvement of boron-doped diamond anode system in electrochemical degradation of p-nitrophenol by zero-valent iron, Electrochimica Acta, 2011, 56(28): 10371-10377.

lXuan Xing, Xiuping Zhu, Hongna Li, Jinren Ni*, Electrochemical oxidation of nitrogen-heterocyclic compounds at boron-doped diamond electrode, Chemosphere, 2012, 86: 368-375.

lXiuping Zhu, Jinren Ni*, Junjun Wei, Xuan Xing, Hongna Li, Yi Jiang, Destination of organic pollutants during electrochemical oxidation of biologically-pretreated dye wastewater using boron-doped diamond anode, Journal of Hazardous Materials, 2011, 189(1-2): 127-133.

lHongna Li, Xiuping Zhu, Jinren Ni*, Comparison of electrochemical method with ozonation, chlorination and monochloramination in drinking water disinfection, Electrochimica Acta, 2011, 56(27): 9789-9796.

lLin Xiong, Cheng Chen, Qing Chen, Jinren Ni*, Adsorption of Pb(II) and Cd(II) from aqueous solutions using titanate nanotubes prepared via hydrothermal method, Journal of Hazardous Materials, 2011, 189(3): 741-748.

lLin Xiong, Weiling Sun, Ye Yang, Cheng Chen, Jinren Ni*, Heterogeneous photocatalysis of methylene blue over titanate nanotubes: Effect of adsorption, Journal of Colloid and Interface Science, 2011, 356(1): 211-216.

lJunjun Wei, Xiuping Zhu, Jinren Ni*, Electrochemical oxidation of phenol at boron-doped diamond electrode in pulse current mode, Electrochimica Acta, 2011, 56(15): 5310-5315.

lXiuping Zhu, Jinren Ni*, Wei Junju, Scale-up of BDD anode system for electrochemical oxidation of phenol simulated wastewater in continuous mode, Journal of Hazardous Materials, 2010, 184(1-3): 493-498.

lHongna Li, Xiuping Zhu, Jinren Ni*, Inactivation of Escherichia coli in Na(2)SO(4) electrolyte using boron-doped diamond anode, Electrochimica Acta, 2011, 56(1): 448-453.

lXiuping Zhu, Jinren Ni*, Hongna Li, Yi Jiang, Xuan Xing, Effects of ultrasound on electrochemical oxidation mechanisms of p-substituted phenols at BDD and PbO₂ anodes, Electrochimica Acta, 2010, 55(20): 5569-5575.

lJiang Yi, Xiuping Zhu, Hongna Li, Jinren Ni*, Effect of Nitro Substituent on Electrochemical Oxidation of Phenols at Boron-doped Diamond Anodes, Chemosphere, 2010,78(9): 1093-1099.

lHongna Li, Xiuping Zhu, Yi Jiang, Jinren Ni*, Comparative electrochemical degradation of phthalic acid esters using boron-doped diamond and Pt anodes, Chemosphere, 2010,80(8): 845-851.

lBin Zhao, Huazhang Zhao, Jinren NI*, Arsenate removal by Donnan Dialysis: Effects of the accompanying components, Separation and Purification Technology, 2010, 72(3): 250-255.

lBin Zhao, Huazhang Zhao, Jinren NI*, Modeling of the Donnan dialysis process for arsenate removal, Chemical Engineering Journal, 2010, 160(1): 170-175.

lLin Xiong, Ye Yang, Jiaxing Mai, Weiling Sun, Chaoying Zhang, Dapeng Wei, Qing Chen, Jinren Ni*, Adsorption behavior of methylene blue onto titanate nanotubes, Chemical Engineering Journal, 2010, 156(2): 313-320.

lXiuping Zhu, Jinren NI*, Peng Lai, Advanced treatment of biologically pretreated coking wastewater by electrochemical oxidation using boron-doped diamond electrodes, Water Research, 2009, 43(17):4347-4355.

lXiuping Zhu, Jinren NI*, Simultaneous processes of electricity generation and p-nitrophenol degradation in a microbial fuel cell, Electrochemistry Communications, 2009, 11(2): 274-277.

lLina Xu, Huazhang Zhao, Shaoyuan Shi, Guangzhi Zhang, Jinren Ni*, Electrolytic treatment of Acid Orange 7 from aqueous solution by a three-dimensional electrode reactor, Dyes and Pigments, 2008, 77(1): 158-164.

lJia-Xing Mai, Wei-Ling Sun, Lin Xiong, Ying Liu, Jin-Ren Ni*, Titanium dioxide mediated photocatalytic degradation of 17β-estradiol in aqueous solution, Chemosphere, 2008, 73(4): 600-606.

lXiuping Zhu, Meiping Tong, Shaoyuan Shi, Huazhang Zhao, Jinren Ni*, An Essential Explanation to the Strong Mineralization Performance of Boron-doped Diamond Electrodes, Environmental Science and Technology, 2008, 42(13): 4914-4920.

lXiuping Zhu, Shaoyuan Shi, Junjun Wei, Fanxiu Lv, Huazhang Zhao, Jiangtao Kong, Qi He, Jinren NI*, Electrochemical oxidation characteristics of p-Substituted phenols using boron-doped diamond electrode, Environmental Science and Technology, 2007, 41 (18): 6541-6546.

lJun Zhu, Huazhang Zhao, Jinren Ni*, Fluoride distribution in electrocoagulation defluoridation process, Separation and Purification Technology, 2007, 56(2): 184-191.

lJiangtao Kong, Shaoyuan Shi, Lingcai Kong, Xiuping Zhu, Jinren Ni*, Preparation and characterization of PbO₂ electrodes doped with different rare earth oxides, Electrochimica Acta, 2007, 53(4): 2048-2054.

lQian Chen, Jinren Ni*, Ammonium removal by Agrobacterium sp LAD capable of heterotrophic denitrification, Journal of Bioscience and Bioengineering, 2012, 113 (5): 619-623.

lQian Chen, Jinren Ni*, Heterotrophic nitrification-aerobic denitrification by novel isolated bacteria, Journal of Industrial Microbiology & Biotechnology, 2011, 38(9): 1305-1310.

lHui Li, Jinren Ni*, Treatment of wastewater from Dioscorea zingiberensis tubers used for producing steroid hormones in a microbial fuel cell, Bioresource Technology, 2011, 102(3): 2731–2735.

lJia Cheng, Xiuping Zhu, Jinren Ni*, Palm oil mill effluent treatment using a two-stage microbial fuel cells system integrated with immobilized biological aerated filters, Bioresource Technology, 2010, 101(8): 2729-2734.

lYuling Zhu, Wen Huang, Jinren Ni*, Production of diosgenin from Dioscorea zingiberensis tubers through enzymatic saccharification and microbial transformation, Applied Microbiology and Biotechnology, 2010, 85(5): 1409-1416.

lHui Li, Jinren Ni*, Wei Liu, Yuling Zhu, Cleaner production alternatives for saponin industry by recycling starch, Resources, Conservation and Recycling, 2010, 54(12): 1145–1151.

lYuling Zhu, Wen Huang, Jinren Ni*, A promising clean process for production of diosgenin from Dioscorea zingiberensis C. H. Wright by Trichoderma reesei, Journal of Cleaner Production, 2010, 18(3): 242-247.

lYuling Zhu, Jinren Ni*, Wen Huang, Process optimization for the production of diosgenin with Trichoderma reesei, Biopreocess and Biosystems Engineering, 2010, 33(5): 647-655.

lPeng Cheng, Huazhang Zhao, Jinren Ni*, Pilot treatment of wastewater from Dioscorea zingiberensis C.H. Wright production by anaerobic digestion combined with a biological aerated filter, Bioresource Technology, 2009, 100(12): 2918-2925.

lBaogang Zhang, Huazhang Zhao, Shungui Zhou, Chunhong Shi, Jinren Ni*, A novel UASB-MFC-BAF integrated system for high strength molasses wastewater treatment and bioelectricity generation, Bioresource Technology, 2009, 100(23): 5687-5693.

lPeng Lai, Huazhang Zhao, Ming Zeng, Jinren Ni*, Study on treatment of coking wastewater by biofilm reactors combined with zero-valent iron process, Journal of Hazardous materials, 2009, 162(2-3): 1423-1429.

lLei Yao, Zheng-fang Ye, Mei-ping Tong, Peng Lai, Jin-ren Ni*, Removal of Cr³⁺from aqueous solution by biosorption with aerobic granules, Journal of Hazardous Materials, 2009, 165(1-3): 250-255.

lZhu Liang, Jinren Ni, Improving the ammonium ion uptake onto natural zeolite using an integrated modification process, Journal of Hazardous Materials, 2009, 166(1): 52-60.

lLi Fan, Jinren Ni*, Yanjun Wu, Yongyong Zhang, Treatment of bromoamine acid wastewater using combined process of micro-electrolysis and biological aerobic filter, Journal of Hazardous Materials, 2009, 162(2-3): 1204-1210.

lLi Fan, Shunni Zhu, Dongqi Liu, Jinren Ni*, Decolorization of 1-amino-4-bromoanthraquinone-2-sulfonic acid by a newly isolated strain of Sphingomonas herbicidovorans, International Biodeterioration & Biodegradation, 2009, 63(1): 88-92.

lNa Lu, Shun-gui Zhou, Jin-tao Zhang, Li Zhuang, Jin-ren Ni*, Electricity generation from starch processing wastewater using microbial fuel cell technology, Biochemical Engineering Journal, .2009, 43(3): 246-251.

lDongkang Fu, Shaozu Wu, Xiaojia He, Jinren Ni*, Preparation and property analysis of polyacrylate dispersant for calcium carbonate，Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2008, 326 (3): 122-128.

lPeng Lai, Huazhang Zhao, Zhengfang Ye, Jinren Ni*，Assessing the effectiveness of treating coking effluents using anaerobic and aerobic biofilms, Process Biochemistry, 2008, 43(3): 229-237.

lNa Lu, Shungui Zhou, Jinren Ni*, Mechanism of Energy Generation of Microbial Fuel Cell, Progress in Chemistry, 2008, 20(7/8): 1233-1240.

lShuni Zhu and Jinren NI*, Treatment of Coking Wastewater by a UBF-BAF combined Process, Journal of Chemical Technology & Biotechnology, 2008, 83(3): 317-324.

lShunni Zhu, Dongqi Liu, Li Fan, Jinren Ni*, Degradation of quinoline by Rhodococcus sp. QL2 isolated from activated sludge, Journal of Hazardous Materials, 2008, 160(2-3): 289-294.

lLi Fan, Shunni Zhu, Jinren Ni*, Decolorization mechanism of 1-amino-4-bromoanthraquinone-2-sulfonic acid using Sphingomonas herbicidovorans FL, Dyes and Pigments, 2008, 78(1): 34-38.

lWen Huang, Huazhang Zhao, Jinren NI*, The best utilization of D. zingiberensis C.H. Wright by an eco-friendly process, Bioresource Technology, 2008, 99: 7407-7411.

lPeng Lai, Hua-zhang Zhao, Chao Wang, Jin-ren Ni*, Advanced treatment of coking wastewater by coagulation and zero-valent iron processes, Journal of Hazardous Materials, 2007, 147(1-2), 17: 232-239.

lMing Chang, Shungui Zhou, Na Lu, Jinren Ni*, Enhanced Bacillus thuringiensis production from sewage sludge with alkaline and ultrasonic pretreatments, Water, Air & Soil Pollution, 2007, 186 (1-4): 75-84.

lXin Zhao, Yanming Wang, Zhengfang Ye, Alistair G.L. Borthwick, Jinren Ni*, Oil Field Wastewater Treatment in Biological Aerated Filter by Immobilized Microorganisms, Process Biochemistry, 2006, 41: 1475-1483.

lHaidong Zhou, Jinren Ni*, Wen Huang, Jiandong Zhang. Separation of hyaluronic acid from fermentation broth by tangential flow microfiltration and ultrafiltration, Separation and Purification Technology, 2006, 52 (1): 29-38.

lJinren Ni, Dingsheng Zhong, Yuefei Huang and Hao Wang, Total waste-load control and allocation based on input-output analysis for Shenzhen, South China, Journal of Environmental Management, 2001, 61: 37-49.

水沙運(yùn)動(dòng)與效應(yīng)

lJinren Ni*, Yao Yue, Alistair G.L. Borthwick, Tianhong Li , Chiyuan Miao , Erosion-induced CO₂ flux of small watersheds, Global and Planetary Change, 2012, 94-95: 101–110.

lYao Yue, Jinren Ni*, Alistair G. L. Borthwick and Chiyuan Miao, Diagnosis of river basins as CO₂ sources or sinks subject to sediment movement, Earth Surface and Process Landforms, 2012, 37(13): 1398-1406.2012.

lJinren Ni*, Jinshui Sun, Alistair G.L. Borthwick, and Yuan Fang, Rapid assessment of intertidal wetland sediments, Soil and Sediment Contamination, 2012, 21(5): 574-585.

lZhang, Guangzhi; Sun, Weiling; Hu, Hao; Ni, Jinren*, Sorption of phenanthrene on to soil fractions in the presence of Triton X-100, Environmental Technology, 2012, 33(3): 321-327.

lChiyuan Miao, Jinren Ni*, Alistair GL Borthwick, A preliminary estimate of human and natural contributions to the changes in water discharge and sediment load in the Yellow River, Global and Planetary Change, 2011, 76(3-4): 196-205.

lPeng Han, Jinren Ni*, Kebin Hou, Chiyuan Miao, Tianhong Li, Numerical modeling of gravitational erosion in rill systems, International Journal of Sediment Research, 2011, 26(4): 403-415.

lJinren Ni*, Liying Sun, Tianhong Li, Xheng Huang, Assessment of flooding impacts in terms of sustainability in mainland China. Journal of Environmental Management, 2010,91(10): 1930-1942.

lChiyuan Miao, Jinren Ni*, Alistair GL Borthwick, Recent changes of water discharge and sediment load in the Yellow River basin, China, Progress in Physical Geography, 2010, 34(4): 541-561.

lLiying Sun, Jinren Ni*, Alistair GL Borthwick. Rapid Assessment of Sustainability in Mainland China. Journal of Environmental Management, 2010, 91(4): 1021-1031.

lMei Han, Guodong Ji, Jinren Ni*, Washing of field weathered crude oil contaminated soil with an environmentally compatible surfactant, alkyl polyglucoside, Chemosphere, .2009, 76(5): 579-586.

lDajun Feng, Zhenshan Li, Jinren NI*, Sidewall effects of wind tunnel on aeolian sediment saltation, Geomorphology, .2009, 106(3-4): 253-260.

lDajun Feng, Zhenshan Li, Jinren NI*, Launch velocity characteristics of non-uniform sand in aeolian saltation, Physica A: Statistical Mechanics and its Applications, 2009, 388(8): 1367-1374.

lLiying Sun, Weiling Sun, Jinren Ni*, Partitioning of water soluble organic carbon in three sediment size fractions: Effect of the humic substances, Journal of Environmental Sciences, 2009, 21(1): 113-119.

lGuangzhi Zhang, Hao Hu, Weiling Sun, Jinren Ni*, Sorption of Triton X-100 on soil organic matter fractions: kinetics and isotherms, Journal of Environmental Sciences, 2009, 21(6): 795-800.

lChiyuan Miao, Jinren Ni*, Variation of Natural Streamflow since 1470 in the Middle Yellow River, China, International Journal of Environmental Research and Public Health, 2009, 6(11): 2849-2864.

lJinren Ni*, Xiuxia Li, Alistair GL Borthwick, Soil erosion assessment based on minimum polygons in the Yellow River basin, Geomorphology, 2008, 93(3-4): 233-252.

lLei Yao, Zhengfang Ye, Zhongyou Wang, Jinren NI*, Characteristics of Pb2+ biosorption by aerobic granular biomass, Chinese Science Bulletin, 2008, 53(6), 948-953.

lZhenshan Li, Dajun Feng, Shiliang Wu, Alistair GL Borthwick, Jinren Ni*, Grain size and transport characteristics of non-uniform sand in aeolian saltation, Geomorphology, 2008, 100(3-4): 484-493.

lNan Xu, Jinren Ni*, and Weiling Sun, Effects of Copper on the Sorption of Phthalate Esters to the Yellow River Sediment, Water, Air and Soil Pollution, 2007, 184(1-4): 207-216.

lNan Xu and Jinren Ni*, Role of Dissolved Organic Carbon in the Co-sorption of Copper and Phthalate Esters onto Yellow River Sediments, Chemosphere,2007, 69:1419-1427.

lJinren Ni*, Liyiing Sun, Weiling Sun, Modification of chemical oxygen demand monitoring in the Yellow River with a high content of sediments, Water Environment Research, 2007, 79 (11): 2336-2342.

lJinren Ni*, Renzhi Liu, Onyx WH Wai, Alistair GL Borthwick, Xiaodong Ge, Rapid zonation of abrupt mass movement hazard, Part I: General principles, Geomorphology, 2006, 80 (3-4): 214-225.

lRenzhi Liu, Jinren Ni*, Alistair GL Borthwick, zhenshan Li, Onyx WH Wai, Rapid zonation of abrupt mass movement hazard, Part II: Applications, Geomorphology, 2006, 80 (3-4): 226-235.

lJinren Ni* and Peng Han, Grain size variation in the Middle Yellow River subject to soil conservation, Journal of Water and Soil Conservation, 2005, 60(2): 99-110.

lJinren Ni*, Zhenshan Li and Cesar Mendoza, Blown-sand transport rate, Earth Surface Processes and Landforms, 2004, 29(1): 1-14.

lJianxin Xia, Jinren NI* and Cesar Mendoza, Hydraulic lifting of manganese nodules through a riser, Journal of Offshore Mechanics & Artic Engineering, ASME, 2004, 126(1):72-77.

lZhenshan Li, Jinren Ni* and Cesar Mendoza, An analytic expression for wind-velocity profiles within the saltation layer, Geomorphology, 2004, 60:359-369.

lJianxin Xia, Jinren NI* and Cesar Mendoza, Upward flow of large size particles-water mixtures through swaying pipes, Journal of Transportation Engineering, ASCE, 2004, 130(4): 535-543.

lZhenghan Qian, Jinren Ni*, An Xue, Silke Wieprecht, Severity Level of No-flow Events in the Yellow River, Water International, 2004, 29(4): 432-438.

lJinren Ni*, Hongwu Zhang, An Xue, Silke Wieprecht, Alistair GL Borthwick, Modeling of hyper-concentrated sediment-laden floods in Lower Yellow River, Journal of Hydraulic Engineering, ASCE, 2004, 130(10): 1025-1032.

lJinren Ni*, Xiaoyong Liu, Tianhong Li, Ye’an Zhao, Ling Jin, Efficiency of Sediment Transport by Flood and Its Control in the Lower Yellow River, Science in China (Series E), 2004, 47(Supp.): 173-185.

lJinren Ni*, Yudong Wang, Zhenghan Qian, Tianhong Li, Yean Zhao, On the Variation of Water Resource Structure in the Lower Yellow River, Science in China (Series E), 2004, 47(Supp.):127-141.

lHuaming Luo, Tianhong Li, Jinren Ni*, Yudong Wang, Water Demand for Ecological Protection in Rivers with Hyper-concentrated Sediment-laden Flow, Science in China (Series E), 2004, 47(Supp.):186-198.

lJinren Ni*, Zhenshan Li and Cesar Mendoza, Vertical profiles of aeolian sand mass flux, Geomorphology, 2003, 49(3-4): 205-218.

lJinren NI* and Jianxin Xia, Particle fluctuation intensities in sediment-laden flows, Mechanics Research Communications, 2003, 30: 25-32.

lJinren Ni*, Honglian Wei and Guohe Huang, Environmental consequences of the Sanmenxia Hydropower Station Operation in Lower Yellow River, Energy Sources, 2003, 25(6): 519-546..

lZhenshan Li and Jinren Ni*, Sampling efficiency of vertical array aeolian sand traps, Geomorphology, 2003, 52: 243-252.

lJinren Ni*, Yingkui Li, Approach to soil erosion assessment in terms of land-use structure changes, Journal of Water and Soil Conservation, 2003, 58(3): 158-169.

lJinren Ni* and An Xue, Application of artificial neural network to ecological risk assessment and rapid feedback in flood diversion zone, Engineering Applications of Artificial Intelligence, 2003, 16(2): 105-119.

lJinren Ni* and Weiling Sun, Applicability of Langmuir equation to Copper sorption by loess with high Carbonate content, Hydrobiologia, 2003, .494(1-3):259-263.

lNan Xu, Weiling Sun and Jinren Ni*, Chemical equilibrium modeling of Copper precipitation in hyper-concentrated solid-Liquid system, Hydrobiologia, 2003, 494(1-3): 201-206.

lJinren Ni*, Xiangjiang Huang and Alistair GL Borthwick,Some characteristics of hyper-concentrated sediment-laden flows, Journal of Engineering Mechanics, ASCE, 2003, 129(12): 1489-1493.

lJinren Ni*, Xiaojie Meng, Damage evaluation based on point-area integrated information in flood diversion basin, International Journal of Sediment Research, 2003, 18(2): 314-320.

lJinren Ni*, Alistair GL Borthwick, and Huapeng Qin, Integrated approach to determining post-reclamation coastline, Journal of Environmental Engineering, ASCE, 2002, 128(6): 543-551.

lHuapeng Qin, Jinren Ni* and Alistair GL Borthwick, Harmonized optimal post-reclamation coastline for Deep Bay, China, Journal of Environmental Engineering, ASCE, 2002, 128(6): 552-561.

lJinren Ni, Particle suspension in sediment-laden flow, Progress in Natural Science, 2002, 12(7): 481-492.

lJinren Ni and Zhenghan Qian, Functional no-flow events in the Yellow River, Science in China (Series E), 2002, 45(5): 449-457.

lLin Liang, Jinren Ni*, Alistair GL Borthwick, Simulation of dike-break processes in the Yellow River, Science in China (Series E), 2002, 45(6): 605-618.

lJinren Ni and Xiaogang Meng, Forces on particles and their effects on vertical sediment sorting in solid-liquid two-phase flows, International Journal of Sediment Research, 2001, 16(2): 128-138.

lJinren Ni and Huapeng Qin, Impact of river realignment and land reclamation on flood control and ecological habitat in river-estuary-bay system, Water International, 2001, 26(2): 206-214.

l Jinren Ni, Suiji Wang, Guangqian Wang, River patterns and spatial and temporal modes, International Journal of Sediment Research, 2000, 15(4): 357-370.

lJinren Ni, Guangqian Wang and Alistair GL Borthwick, The kinetic theory for vertical profile of particle concentration in dilute and dense solid-liquid flows, Journal of Hydraulic Engineering, ASCE, 2000, 126(12): 893-903.

lJinren Ni, Guangqian Wang and Qian Liao, A correction model for hyper-concentrated flow, Intern Journal Sediment Research, 1999, 14(2): 145-148.

lGuangqian Wang & Jinren Ni, Dynamic model of debris flows, Chinese Science Bulletin, 1994, 39(24): 2056-2062.

lDonghuo Zhou & Jinren Ni, Effects of dynamic interaction on sediment laden turbulent flows, Journal of Geophysical Research, 1995, 100: 981-996.

lJinren Ni & Yujia Hui, Velocity concentration relation in sediment laden flow, International Journal of Sediment Research, 1993, 8(2): 85-99.

lJinren Ni & Guangqian Wang, Closure to “Vertical sediment distribution”, Journal of Hydraulic Engineering, ASCE, 1992, 118(10): 1460-1461.

l Jinren Ni & Guangqian Wang, Vertical sediment distribution, Journal of Hydraulic Engineering, ASCE, 1991, 117(9): 1181-1194.

lGuangqian Wang & Jinren Ni, The kinetic theory for dilute solid/liquid two-phase flows, International Journal of Multi-Phase flow, 1991, 17(2): 273-281.

lJinren Ni & Guangqian Wang, On the two patterns of vertical distribution of suspended sediment concentration and their formation cause, International Journal of Sediment Research, 1991, 6(3): 55-72.

lGuangqian Wang & Jinren Ni, A kinetic theory for dilute particle concentration distribution, Journal of Engineering Mechanics, ASCE, 1990, 116(12): 2738-2748.

代表性中文論文:

l倪晉仁、張仁, 河型成因的各種理論及其間關(guān)系, 地理學(xué)報(bào), 1991年, 46卷3期, 366-372.

l倪晉仁、王光謙, 泥石流的結(jié)構(gòu)兩相流模型: I. 地理學(xué)報(bào), 1998年, 53卷1期, 66-76.

l倪晉仁等, 泥石流的結(jié)構(gòu)兩相流模型: II. 地理學(xué)報(bào), 1998年, 53卷1期, 77-86.

l殷康前、倪晉仁, 濕地研究綜述, 生態(tài)學(xué)報(bào), 1998年, 18卷5期, 539-546.

l倪晉仁、周東火, 低濃度固液兩相流中泥沙垂線分布的攝動(dòng)理論解, 水利學(xué)報(bào), 1999年, 30卷5期, 1-5.

l倪晉仁等, 低濃度固液兩相流中泥沙對(duì)紊動(dòng)水流結(jié)構(gòu)的影響, 水利學(xué)報(bào), 1999年, 30卷6期, 1-5.

l倪晉仁、王隨繼, 論順直河流, 水利學(xué)報(bào), 2000年, 31卷12期, 14-20.

l倪晉仁、梁林, 水沙流中的泥沙懸�。↖）, 泥沙研究, 2000年第1期, 7-12.

l倪晉仁、梁林, 水沙流中的泥沙懸�。↖I）, 泥沙研究, 2000年第1期, 13-19.

l倪晉仁、王光謙, 高濃度恒定固液兩相流運(yùn)動(dòng)機(jī)理探析：I.理論, 水利學(xué)報(bào), 2000年, 31卷5期, 22-26.

l倪晉仁、王光謙, 高濃度恒定固液兩相流運(yùn)動(dòng)機(jī)理探析：II.應(yīng)用, 水利學(xué)報(bào), 2000年, 31卷5期, 27-32.

l倪晉仁、廖謙, 陣性泥石流運(yùn)動(dòng)與堆積的歐拉-拉格朗日模型, 自然災(zāi)害學(xué)報(bào), 2000年, 9卷3期, 8-14.

l倪晉仁等, 多組分流元模型在稀性泥石流堆積分選特征研究中的應(yīng)用, 水利學(xué)報(bào), 2001年, 32卷2期, 16-23.

l倪晉仁、方圓, 濕地泥沙環(huán)境動(dòng)態(tài)評(píng)估方法及其應(yīng)用研究, 環(huán)境科學(xué)學(xué)報(bào), 2000年, 20卷6期, 665-669.

l倪晉仁、李英奎, 基于土地利用結(jié)構(gòu)變化的水土流失動(dòng)態(tài)評(píng)估, 地理學(xué)報(bào), 2001年, 56卷5 期, 611-621.

l倪晉仁, 張劍, 基于自組織理論的黃土坡面細(xì)溝形成機(jī)理模型, 水利學(xué)報(bào), 2001年, 32卷8期, 1-7.

l倪晉仁, 韓鵬, 基于自組織理論的黃土坡面細(xì)溝發(fā)育特征分析, 水利學(xué)報(bào), 2002年, 33卷第1期, 6-15.

l倪晉仁、錢征寒, 論黃河功能性斷流, 中國(guó)科學(xué), 2002年, 32卷4期, 496-502.

l倪晉仁等, 論河流生態(tài)環(huán)境需水, 水利學(xué)報(bào), 2002 年, 33卷 9 期, 14-19.

l倪晉仁等, 黃河下游河流最小生態(tài)環(huán)境需水量初步研究, 水利學(xué)報(bào), 2002年, 33卷10期, 1-7.

l倪晉仁、秦華鵬, 填海工程對(duì)潮間帶濕地生境損失的影響評(píng)估, 環(huán)境科學(xué)與學(xué)報(bào), 2003年, 23卷3期, 345-349.

l倪晉仁, 論泥沙災(zāi)害學(xué)體系建立的理論基礎(chǔ), 應(yīng)用基礎(chǔ)與工程科學(xué)學(xué)報(bào), 2003年, 11卷 1期, 1-9.

l倪晉仁等, 泥沙災(zāi)害鏈及其在災(zāi)害過(guò)程規(guī)律研究中的應(yīng)用, 自然災(zāi)害學(xué)報(bào), 2004年, 13卷5期, 1-9.

l倪晉仁、劉小勇, 黃河下游水資源轉(zhuǎn)化結(jié)構(gòu)及其變化規(guī)律, 中國(guó)科學(xué)（E輯）, 2004年, 34卷 (增刊I), 103-116.

l倪晉仁、王裕東, 黃河下游洪水輸沙效率及其調(diào)控，中國(guó)科學(xué)（E輯）, 2004年, 34卷 (增刊I), 144-154.

l倪晉仁、劉元元, 論河流生態(tài)修復(fù), 水利學(xué)報(bào), 2006 年, 37卷9期, 1029-1037.

l孔令裕、倪晉仁, 人工濕地去污模型的統(tǒng)一結(jié)構(gòu)特征, 生態(tài)學(xué)報(bào), 2007年, 27卷4期, 1-6.

l倪晉仁、高曉薇, 河流綜合分類及其生態(tài)特征分析：方法, 水利學(xué)報(bào), 2011年, 42卷9期, 1009-1016.

l倪晉仁、高曉薇, 河流綜合分類及其生態(tài)特征分析：應(yīng)用, 水利學(xué)報(bào), 2011年, 42卷10期, 1177-1184.

主要專著

l倪晉仁、王光謙、張紅武, 《固液兩相流基本理論及其最新應(yīng)用》, 科學(xué)出版社, 1991, 391.

l倪晉仁、馬靄乃, 《河流動(dòng)力地貌學(xué)》, 北京大學(xué)出版社, 1998, 396.

l倪晉仁、李振山, 《風(fēng)沙兩相流理論及其應(yīng)用》, 科學(xué)出版社, 2006, 204.

l倪晉仁、王兆印、王光謙等, 《江河泥沙災(zāi)害形成機(jī)理及其防治》, 科學(xué)出版社, 2008, 681.

l倪晉仁、李天宏、毛小苓等（譯），《四倍躍進(jìn)》, 中華工商聯(lián)合出版社，2001, 415.

l周海林、倪晉仁（執(zhí)行主編）, 《城市河流生態(tài)修復(fù)手冊(cè)》, 社會(huì)科學(xué)文獻(xiàn)出版社, 2008, 273.

主要專利

l倪晉仁、葉正芳, 溫麗麗, 垃圾滲濾液處理系統(tǒng)及方法, 專利號(hào)：ZL 2004 1 0074744.4

l倪晉仁、朱秀萍, 一種用于深度處理垃圾滲濾液的方法, 專利號(hào): ZL 201010222274.7

l溫麗麗、倪晉仁等, 一種中老齡垃圾滲濾液處理方法,專利號(hào): ZL 200710119367.5

l倪晉仁等, 從黃姜加工到廢水處理一體化工藝, 專利號(hào): ZL200610000162.0

l倪晉仁等, 用催化溶劑法從黃姜提取皂素的生產(chǎn)工藝, 專利號(hào): ZL 200910084842.9

l朱秀萍、倪晉仁、程鵬, 一種黃姜廢水的深度處理方法, 專利號(hào): ZL 201010222283.6

l倪晉仁、朱秀萍、魏俊俊, 一種用于處理苯酚廢水的裝置及其方法, 專利號(hào): ZL 201010222308.2

l朱秀萍、倪晉仁, 一種用于深度處理制藥廢水的方法, 專利號(hào): ZL 201010222306.3

l曾明、倪晉仁、葉正芳, 一種對(duì)高氨氮低C/N比的廢水處理工藝及用途, 專利號(hào): ZL 200710120657.1

l倪晉仁、陳倩, 一步式去除廢水中碳氮污染物的方法, PCT/CN2010/074604

l倪晉仁、陳倩, 用于生物脫氮的木糖氧化無(wú)色桿菌菌株及其應(yīng)用, 專利號(hào): ZL 200910085187.9

l倪晉仁、姚碩, 一種低溫生物脫氮的約氏不動(dòng)桿菌菌株及其應(yīng)用, 專利號(hào): ZL 201010543800.8

l倪晉仁、仝國(guó)平、陳倩, 不同溶解氧條件下脫氮的銅綠假單胞菌菌株及其應(yīng)用,專利號(hào): ZL 2010191919.5

l倪晉仁、朱婷婷, 一種可高效降解苯并[a]芘的不動(dòng)桿菌及其應(yīng)用, 專利號(hào): ZL 201110047392.3

l倪晉仁、朱婷婷, 一種可高效降解苯并[a]芘的短小芽孢桿菌及其應(yīng)用, 專利號(hào): ZL 201110047402.3

l倪晉仁、姚磊, 培養(yǎng)好氧顆粒污泥的裝置及其專用反應(yīng)器, 專利號(hào): ZL 200910088569.7

l陳倩、倪晉仁, 具有異養(yǎng)硝化-好氧反硝化能力的土壤桿菌及其在含氮廢水處理中的應(yīng)用, 專利號(hào): ZL 200910083014.3

l倪晉仁、瞿利建、陳倩, 利用異養(yǎng)硝化-好氧反硝化細(xì)菌強(qiáng)化AB工藝脫氮的方法, 專利號(hào): ZL 201110147010.4

教授課程

l環(huán)境科學(xué)與工程前沿

l環(huán)境工程學(xué)科前沿研討班

l水沙環(huán)境研究

l專業(yè)英語(yǔ)

若干學(xué)術(shù)觀點(diǎn)

（1） 面向生態(tài)的水資源開(kāi)發(fā)利用和管理是解決中國(guó)水問(wèn)題的唯一出路。

主要觀點(diǎn)（《人民日?qǐng)?bào)》，2001年3月6日第十一版）

進(jìn)入21世紀(jì)后，傳統(tǒng)的工程型和資源型水資源開(kāi)發(fā)利用和管理模式已不足以從根本上解決中國(guó)復(fù)雜的水問(wèn)題，而且還可能會(huì)引起自然生態(tài)系統(tǒng)的嚴(yán)重退化。因而，必須在觀念上進(jìn)行轉(zhuǎn)變，尋求能夠解決中國(guó)水問(wèn)題的根本出路。

面向生態(tài)的核心就是以最小的水資源投入獲得最大的水生態(tài)服務(wù), 即獲得最大的自然-社會(huì)-經(jīng)濟(jì)綜合生態(tài)效益。消耗的物質(zhì)愈多，就意味著我們從自然生態(tài)系統(tǒng)索取的物質(zhì)愈多，從而對(duì)生態(tài)系統(tǒng)可能造成的損害也就愈大。面向生態(tài)的水資源在某些方面可以在負(fù)成本的條件下得以實(shí)現(xiàn)，做到有利可圖。面向生態(tài)的水資源開(kāi)發(fā)利用和管理模式是提高水資源利用效率、治愈水資源浪費(fèi)的良方。

面向生態(tài)，可以使水消耗和水污染更少，并使人們生活得更好。越是需要調(diào)水的地方，越需要面向生態(tài)。越是生態(tài)脆弱的地區(qū)，越需要面向生態(tài)。

面向生態(tài)，應(yīng)該變水資源供需導(dǎo)向?yàn)樗Y源生產(chǎn)率提高導(dǎo)向，變單純的分配定額制度為水資源的有償轉(zhuǎn)讓制度，按照面向生態(tài)的市場(chǎng)機(jī)制利用水資源、出租水資源、回收水資源、轉(zhuǎn)讓水資源、管理水資源，使節(jié)水者獲益。

在現(xiàn)有經(jīng)濟(jì)技術(shù)條件下，以不同地區(qū)的生態(tài)需求定開(kāi)發(fā)利用的水資源量，以水定糧、以水定產(chǎn)、以水定草、以水定林、以水定發(fā)展。

我認(rèn)為，面向生態(tài)的水資源開(kāi)發(fā)利用是解決中國(guó)水問(wèn)題的唯一出路。

上述觀點(diǎn)于2001年3月4日在國(guó)家主席出席的全國(guó)政協(xié)九屆四次會(huì)議民建、工商聯(lián)界聯(lián)組會(huì)上發(fā)言闡述, 后在人民日?qǐng)?bào)、人民網(wǎng)、中國(guó)政協(xié)報(bào)報(bào)道或轉(zhuǎn)載；在香山科學(xué)會(huì)議第158次學(xué)術(shù)討論會(huì)“面向生態(tài)的水資源合理配置與調(diào)控”會(huì)議（2001年3月23-25日，倪晉仁、王浩、夏軍任會(huì)議執(zhí)行主席）上以“面向生態(tài)的水資源利用模式思考”為題報(bào)告，在中國(guó)科學(xué)基金上報(bào)道；全文詳見(jiàn)“倪晉仁, 面向生態(tài)的水資源合理配置與調(diào)控, 《科學(xué)前沿與未來(lái)》（第六集, 香山科學(xué)會(huì)議主編）,中國(guó)環(huán)境科學(xué)出版社, 2002年12月, 19-26”。

（2） 黃河不斷流與功能性不斷流的河流調(diào)控目標(biāo)有著本質(zhì)的不同。

主要觀點(diǎn)（倪晉仁、錢征寒, 論黃河功能性斷流, 中國(guó)科學(xué), 2002年32卷4期, 496-502）

首次提出黃河功能性斷流的概念，它本質(zhì)上不同于通常意義的“零流量”斷流，它是河道徑流量不能滿足河流基本功能最小需水量要求的特定事件, 只有從功能上看待斷流事件才能觸及河流健康本質(zhì)。

黃河斷流系指河道水量減至為零的特殊現(xiàn)象, 只要尚存少許徑流就不被認(rèn)為斷流；黃河功能性斷流著眼河流功能受損衰竭的臨界狀態(tài), 即使河水仍未干枯也會(huì)被看作“斷流”. 其次, 前者屬于一種自然表象上的“絕對(duì)斷流”, 后者則類似一種內(nèi)在功能性的“相對(duì)斷流”. 在河道徑流明顯減少直至小于某臨界值時(shí), 盡管黃河并未斷流, 但是黃河功能性斷流可能早已發(fā)生而且或許開(kāi)始導(dǎo)致河流系統(tǒng)諸項(xiàng)(或某項(xiàng))功能受損甚至?xí)簳r(shí)或永久地喪失.

黃河功能性斷流屬于一種不利于維護(hù)河流系統(tǒng)功能的事件, 它對(duì)各項(xiàng)功能的影響大小與斷流發(fā)生的時(shí)空范圍、頻度和功能的易損性有著密切關(guān)系.黃河斷流的影響不僅表現(xiàn)為河流功能受損的嚴(yán)重程度, 而且取決于受損河流功能的恢復(fù)能力.

黃河斷流后需要恢復(fù)的是流量不為零的表象景觀, 而黃河功能性斷流后需要恢復(fù)的則是健康河流的實(shí)際功能, 應(yīng)該從近期和遠(yuǎn)期綜合考慮, 將現(xiàn)狀與后效優(yōu)化協(xié)調(diào).黃河斷流的現(xiàn)象必然會(huì)引出黃河功能性斷流的問(wèn)題.

黃河表象不斷流與功能性不斷流的河流調(diào)控目標(biāo)有著本質(zhì)的不同。

上述觀點(diǎn)于1997年10月31日~11月2日在中國(guó)科協(xié)舉辦的第27次“青年科學(xué)家論壇”港、澳、臺(tái)、大陸“環(huán)境-水利-地理-泥沙交叉科學(xué)前沿問(wèn)題”討論會(huì)（倪晉仁、王光謙、李行偉任執(zhí)行主席）上報(bào)告，在《科技導(dǎo)報(bào)》1998年第4期上發(fā)布了青年科學(xué)家關(guān)于及時(shí)開(kāi)展“黃河斷流問(wèn)題研究”的建議；后在973課題支持下發(fā)表系列論文；目前，黃河等多條河流已將“從河流不斷流到河流功能性不斷流”作為河流健康維護(hù)的基本原則和努力目標(biāo)。

（3） 泥沙災(zāi)害理論體系的建立是解決新時(shí)期江河水沙災(zāi)害問(wèn)題的基礎(chǔ)。

主要觀點(diǎn)（倪晉仁, 論泥沙災(zāi)害學(xué)體系建立的理論基礎(chǔ), 應(yīng)用基礎(chǔ)與工程科學(xué)學(xué)報(bào), 11 卷 1 期, 2003年, 1-9；倪晉仁、王兆印、王光謙，江河泥沙災(zāi)害形成機(jī)理及其防治研究，中國(guó)科學(xué)基金，1999年第5期，287-284）

提出了泥沙災(zāi)害、泥沙圈的概念和泥沙災(zāi)害學(xué)學(xué)科體系建立的框架。

泥沙災(zāi)害學(xué)是泥沙學(xué)、地貌學(xué)與災(zāi)害學(xué)學(xué)科交叉的產(chǎn)物, 它是描述泥沙在其侵蝕、輸移和沉積運(yùn)動(dòng)發(fā)生變異時(shí)造成災(zāi)禍過(guò)程及其防治方法的科學(xué)。泥沙災(zāi)害既具有類似于其它災(zāi)害的一般特性, 又具有自身的特性和規(guī)律。

泥沙災(zāi)害具有鏈鎖式反應(yīng)機(jī)制, 在一定條件下構(gòu)成泥沙災(zāi)害鏈。泥沙災(zāi)害的漸發(fā)特征和強(qiáng)次生災(zāi)害特征、時(shí)間積累效應(yīng)和異地傳輸效應(yīng)研究，是認(rèn)識(shí)流域泥沙災(zāi)害過(guò)程規(guī)律和制定防治戰(zhàn)略的重要基礎(chǔ)。

作為相對(duì)獨(dú)立于過(guò)去四大災(zāi)害的系統(tǒng), 明確的運(yùn)動(dòng)物質(zhì)主體、固有的顆粒運(yùn)動(dòng)特性、獨(dú)特的泥沙災(zāi)害系統(tǒng)和不同的災(zāi)害防治方法形成了泥沙災(zāi)害學(xué)的特殊體系。

20世紀(jì)90年代以來(lái)，泥沙運(yùn)動(dòng)已成為近年來(lái)加劇江河洪災(zāi)引發(fā)“小水大災(zāi)”的根本原因之一，迫切需要從深層次揭示泥沙災(zāi)害形成規(guī)律和防治方法。鑒于此，1997年國(guó)家自然科學(xué)基金委員會(huì)與水利部聯(lián)合設(shè)立自然科學(xué)基金重大項(xiàng)目“江河泥沙災(zāi)害形成機(jī)理及其防治研究”（項(xiàng)目主持人為倪晉仁、王兆印、王光謙），開(kāi)展了歷時(shí)5年的系統(tǒng)研究。項(xiàng)目完成后獲得“特優(yōu)”評(píng)價(jià)，成果集中反映在100多萬(wàn)字的專著《江河泥沙災(zāi)害形成機(jī)理及其防治研究》中，主要成果獲得2010年國(guó)家科技進(jìn)步二等獎(jiǎng)。

（4） 受損河流生態(tài)修復(fù)的關(guān)鍵是其系統(tǒng)功能的恢復(fù)。

主要觀點(diǎn)：（詳見(jiàn)代表性中文論文：論河流生態(tài)環(huán)境需水，黃河下游河流最小生態(tài)環(huán)境需水量初步研究，論河流生態(tài)修復(fù), 濕地研究綜述等 4 篇相關(guān)中文論文被 CNKI《中國(guó)引文數(shù)據(jù)庫(kù)》他引約 800次）

輸沙功能是多沙河流要求滿足的一項(xiàng)重要系統(tǒng)功能,研究多沙河流的生態(tài)環(huán)境需水必須考慮河流的輸沙用水。一般確定河流生態(tài)環(huán)境需水量的計(jì)算方法，因其很少考慮多沙河流的生態(tài)環(huán)境需水特點(diǎn)而往往只適用于少沙河流。黃河生態(tài)環(huán)境需水中輸沙用水需求遠(yuǎn)高于其他功能用水需求, 輸沙需水占生態(tài)環(huán)境需水的絕大部分。

黃河下游汛期最小生態(tài)環(huán)境需水量主要由輸沙用水的需求決定，當(dāng)汛期輸沙需水得到滿足時(shí), 不僅可以輸送全年的大部分泥沙, 而且河流其他功能用水需求可以自動(dòng)得到滿足, 此時(shí)的生態(tài)環(huán)境需水量與輸沙需水量相當(dāng)。

在非汛期，高村、艾山、利津三部對(duì)應(yīng)的各種功能所需臨界流量也以輸沙需水量為最大，但因該階段各個(gè)河段輸沙效率較低，可以優(yōu)先考慮河流污染防治功能與河流生態(tài)功能，取其所需臨界流量中較大的一個(gè)作為河流生態(tài)環(huán)境需水量。

非汛期輸沙需水得到滿足時(shí),同樣可以滿足河流其他功能的用水需求, 但因輸沙效率較低而導(dǎo)致相應(yīng)的水資源浪費(fèi)。根據(jù)多沙河流生態(tài)環(huán)境需水的特點(diǎn), 可利用水利樞紐進(jìn)行適當(dāng)?shù)乃辰M合調(diào)控,將非汛期來(lái)沙集中在汛期輸送, 從而達(dá)到減輕河道淤積,降低生態(tài)環(huán)境需水量,提高水資源利用效率的目的。

根據(jù)水資源在河流系統(tǒng)中的不同服務(wù)目標(biāo), 將黃河下游各主要水文斷面的水資源劃分為生態(tài)環(huán)境水、資源水和災(zāi)害水3個(gè)組成部分(簡(jiǎn)稱“三水”), 并給出了50多年來(lái)“三水”的相互轉(zhuǎn)化情況及其變化規(guī)律。

以提高洪水輸沙用水效率為目標(biāo), 采用開(kāi)環(huán)控制和反饋控制對(duì)洪水輸沙過(guò)程調(diào)控進(jìn)行了模擬與仿真，指出當(dāng)黃河下游花園口以下河段含沙量小于20kg/m³時(shí), 流量對(duì)輸沙用水量減小有很好的調(diào)控作用；含沙量為20 kg/m³時(shí), 適宜的調(diào)控流量范圍是2390～2900 m³/s。

以河流系統(tǒng)諸功能與河流健康之間的關(guān)系為主線，從人與河流關(guān)系的發(fā)展與變化出發(fā)，深入探討了原始自然階段、工程控制階段、污染治理階段和河流生態(tài)系統(tǒng)修復(fù)和改善等四個(gè)階段的河流特點(diǎn)和治理?xiàng)l件，分析了各個(gè)階段河流系統(tǒng)平衡的特征和影響因素，建立了河流健康診斷指標(biāo)體系，提出了河流生態(tài)修復(fù)的主要原則。河流生態(tài)修復(fù)的總體目標(biāo)是恢復(fù)河流系統(tǒng)健康，實(shí)現(xiàn)人與河流的和諧共存。明確河流健康、河流功能、功能要素和生態(tài)修復(fù)措施四個(gè)層次的關(guān)系是實(shí)現(xiàn)河流生態(tài)修復(fù)基礎(chǔ)。

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