教育經歷
1991.09-1995.07 西安理工大學,給排水科學與工程 工學學士學位
1999.09-2002.07 西安理工大學,環境工程 工學碩士學位
2006.04-2010.04 德國
柏林工業大學,環境工程 工學博士學位
研究方向
主要墓汗敬從事污水深度處理和水環境水質控制方面的研究
理論研究
在國際上首次定量地證實了大分子親水性胞外高聚物對膜污染的決定性作用,闡明了線上絮凝低加藥量的情況下和慢濾系統控制膜污染基本機理,在國際學術刊物及科學會議上發表30 多篇相關領域科學研究論文,其中 20 余篇SCI檢索,德國專利1項。先後獲得並完成戀雅雄了由歐盟第六框架研發基金、德國教育部、沙特阿卜杜拉國王科技大學、美國伊利諾伊香檳分校、丹麥格蘭富集團等機構資助的創新工藝和產品研發項目。
在水處理領域進一步在科研與工業產業領域發揮專業優勢,致力於膜的功能化與電化學等水處理技術多學科結合套用,創新研發特種污水和市政污水廠污泥的處理和減量化工作, 最佳化水處理和污泥處理系統,科學提升污水污泥處理系統的功能表現。
同時,帶領團隊在水體與水處理過程中污染物、營養物質的遷移轉化提供分子生物學技術支撐,包括微生物微觀群落指紋、抗性基因指紋和毒性指紋,以及功能性基因分布與進化研究,與環境生態學等相關學科開展水環境生態過程機理研究。通過大數據和雲計算等技術手段實現海-量數據信息挖掘與定量表征,致力於建立多指標指紋型水生態監測、調控、重建與管理關鍵技術集成。
實際套用
1、超濾膜系統的設計、製造與最佳化運行:主持超濾膜系統的設計與處理地表水、海水、污水廠二級出水的實際運行工作;主要產品包括:格蘭富AQpure超濾系統的整體設計、設備選型與運行參數設定,AQpure套用於非洲、南亞、南美地區的水地圖參數與取值範圍。
2、智慧型加藥系統在水和污泥處理中的套用:主持格蘭富計量泵在水處理過程中的智慧型化研發,其中嘗夜超濾系統集成線上絮凝的套用與最佳化工作獲得德國專利一項。主持工閥連悼刪業循環水場的水質監控系統與智慧型化控制,申請國家專利3項。
3、污泥、污水和水中高分子有機物的定性定量測量與控制技術:掌握先進的水中高分子有機物分離、定性定量測量技術,並套用於活性污泥、污水廠二級出水、地表水中大分子有機物的分離,定量地證實了大分子胞外高聚物對污泥脫水和膜污染的決定性作用,直接套用於指導污水處理中污泥脫水效果、水的膜污染評定。
科研項目
[1] 廢水生物處理過程中微生物代謝產物的作用機制與調控原理,2018,國家基金重點項目子項 (負責)。
[2] 二級出水亞微米有機顆粒生成機制及其膜污染過程,2019,國家自然科學基金面上項目 (負責)。
[3] 吸附劑強化及靜電場活化污水深度處鍵照疊拳理技術,2018,中石化科研基金 (負責)。
[4] 新型旁流式EBPR工藝生物除磷關鍵技術,2018,陝西省環保廳重點項目 (負責)。
[5] 污泥減量工藝對二級出水亞微米尺寸有機物及超濾膜污染的影響研究,2017, 陝西省國際合作項目 (負責)。
[6] 污水深度處櫃設酷理過程中膜污染過程及其控制,2016,西安理工大學專項 (負責)。
[7] 人類活動干擾下的黃河新型污染物殼簽糠遷移轉化規律及生態風險評估,2018,西北旱區生態水利國家重點實驗室基金 (共同負責)。
[8] 市政污水處理廠污泥減量與磷回收,義烏市“英才計畫”,2017,(負責)浙江省義烏市 (負責)。
發表論文專著
國際學術期刊論文
[1] Victor Augusto Yangali-Quintanilla, Allan Hjarbæk Holm, Marc Birkner, Sèbastien D´Antonio, Helena Wulff Coco Stoltze, Mathias Ulbricht, Xing Zheng*, A fast and reliable approach to benchmark low pressure hollow fibre filtration membranes for water purification, Journal of Membrane Science, 499, 515-525,2016
[2] Zheng X., Zietzschmann F., Plume S., Paar H., Ernst M., Wang Z., Jekel M., Understanding and Control of Biopolymer Fouling in Ultrafiltration of Different Water Types, Water, 2017, 9(4), 298; IF1.832 doi:10.3390/w9040298
[3] Zheng, X., Khan, T., Croue, J., Contribution of Effluent Organic Matter (EfOM) to Ultrafiltration (UF) Membrane Fouling: Isolation, Characterization, and Fouling Effect of EfOM fractions, accepted by Water Research,Vol. 65, 414-424, 2014
[4] Zheng, X., Plume, S., Ernst, M., Croué, J., Jekel, M., In-line coagulation prior to UF of treated domestic wastewater – foulants removal, fouling control and phosphorus removal, Journal of membrane science, 403-404, 129 – 139, 2012
[5] Zheng, X., Ernst, M., Jekel, M., Stabilizing the Performance of Ultrafiltration in Filtering Tertiary Effluent –Technical Choices and Economic Comparison, Journal of Membrane Science, 366 (1-2) 82 – 91,2011
[6] Zheng, X., Ernst, M., Huck, P.M., Jekel, M., Biopolymer Fouling in Dead-end Ultrafiltration of Treated Domestic Wastewater, Water Research, 44 (18), 5212-5221, 2010
[7] Zheng, X., Ernst, M., Jekel, M., Pilot-scale investigation on the removal of organic foulants in secondary effluent by slow sand filtration prior to ultrafiltration, Water Research, 44 (10) 3203-3213, 2010
[8] Zheng, X., Ernst M., Jekel, M., Identification and Quantification of Major Organic Foulants in Treated Domestic Wastewater Affecting Filterability in Dead-end Ultrafiltration, Water Research, 43 (1) 238-244, 2009
[9] Zheng, X., Mehrez, R., Jekel, M., Ernst, M., Effect of slow sand filtration of treated wastewater as pre-treatment to UF, Desalination, 249 (2) 591-595, 2009
[10] Zheng, X., Croué, J., Contribution of different effluent organic matter fractions to membrane fouling in ultrafiltration of treated domestic wastewater, Vol.2 No.4, 204-209, Water reuse and desalination, 2012
[11] Martin Schulz, Alexander Soltani, Xing Zheng, Mathias Ernst, Effect of inorganic colloidal water constituents on combined low-pressure membrane fouling with natural organic matter (NOM), Journal of Membrane Science, 507, 154-164, 2016
[12] Poorasgari, E.; Larsen, P.; Zheng, X.; Nielsen, P.H.; Keiding, K.; Lykkegaard, C.M., Irreversible fouling of membrane bioreactors due to formation of a non-biofilm gel layer, Water Science and Technology, Vol. 69, No. 8, p. 1641-1647, 2014
[13] Hadj-Romdhane F, Zheng X, Jaouen P, Pruvost J, Grizeau D, Croué JP, Bourseau P., The culture of Chlorella vulgaris in a recycled supernatant: effects on biomass production and medium quality,Vol.132, 285-292, Bioresour Technol. 2013
[14] Zietzschmann, F., Ernst, M., Godehardt, M., Paar, H., Zheng, X., Jekel, M.,Linking UF reversible and irreversible fouling to the water quality of surface water and treated municipal wastewater, Vol.33, 1-11, Water reuse and desalination , 2013
[15] Janota, N., Reillera,P., Zheng, X., Crouéc, J., Benedetti, M., Characterization of humic acid reactivity modifications due to adsorption onto α-Al2O3, Water research, 46 (3) 731 – 740, 2012
[16] Meng, F., Zhou, Z, Ni, B.J., Zheng, X., Huang, G.Z., Jia, X. S., Li, S. Y., Xiong, Y., Sized –based characterization of soluble microbial products (SMP): Tracking their role and fate in a membrane bioreactor (MBR), 45 (15) 4661 – 4671, Water Research, 2011
[17] Huang G, Meng F, Zheng X, Wang Y, Wang Z, Liu H, Jekel M. Biodegradation behavior of natural organic matter (NOM) in a biological aerated filter (BAF) as a pretreatment for ultrafiltration (UF) of river water, Appl Microbiol Biotechnol. 90(5) 1795-803, 2011
[18] Sperlich, A., Zheng, X., Ernst, M., Jekel, M., An integrated wastewater reuse concept combining natural reclamation techniques, membrane filtration and metal oxide adsorption, Water Science and Technology, 57 (6) 909-914, 2008
[19] Ernst, M., Sperlich, A., Zheng, X., Gan, Y., Hu, J., Zhao, X., Wang, J., Jekel, M., An integrated wastewater treatment and reuse concept for the Olympic Park 2008, Beijing, Desalination, 202 (1-3) 293-301, 2007
[20] Xiao fang Yang, Xing Zheng, LinjieWu, XinCao, Yi Li, Jun feng Niu, Fangang Meng, Interactions between algal (AOM) and natural organic matter (NOM): Impacts on their photodegradation in surface waters, Environmental Pollution, 242, 1185-1197,2018
[21] Zhong Yu, Zhongbo Zhou, Guocheng Huang, Xing Zheng, Linjie Wu, Shanshan Zhao, and Fangang Meng, Two-Dimensional FTIR Spectroscopic Characterization of Functional Groups of NaOCl-Exposed Alginate: Insights into Membrane Refouling after Online Chemical Cleaning, ACS Applied Bio Materials, 2018 DOI: 10.1021/acsabm.8b00082
國際會議論文
[1] Tong Liu, Dongqi Wang, Zhangjie Yang, Chanyu Yang, Menghan Guo, Yijiang Li, Xin Cao, Wen Cheng, Xing Zheng*, Solvable Microbiological Products under Shock Loading Caused by Heavy Metals and their Fouling Effect in Ultrafiltration (UF), 9th IWA Specialised Membrane Technology Conference and Exhibition for Water and Wastewater Treatment and Reuse, Singapore, 05-08. September, 2017
[2] Zheng, X, Zietzschmann Frederik, Plume Stephan, Paar Hendrik, Ernst Mathias, Jekel Martin, The Content of Nitrogenous Biopolymer in Feed Water is not a Generic Fouling Indicator in Ultrafiltration of Different Water Types. IWA regional group in membrane technology, 25-26 Aug. Kunming, China, 2016
[3] Zheng, X., Comparing biopolymer fouling in UF of secondary effluent and surface water, Young membraners in desalination and wastewater reuse, 22. Nov. Nanjing, China, 2015
[4] Poorasgari, E.; Larsen, P.; Zheng, X.; Nielsen, P.H.; Keiding, K.; Lykkegaard, C.M., Irreversible fouling of membrane bioreactors due to formation of a non-biofilm gel layer, 7th IWA Specialised Membrane Technology Conference and Exhibition for Water and Wastewater Treatment and Reuse, Toronto, Canada, 26-29 August 2013
[5] Zheng, X., Croue, JP, Contribution of Effluent Organic Matter (EfOM) to UF Membrane Fouling, (oral presentation), 4th Oxford Water and Membranes Research Event, the University of Oxford, Great Britain, September, 2012
[6] Zheng, X., Contribution of Effluent Organic Matter (EfOM) to UF Membrane Fouling, (oral presentation), 8th International Conference on Water Reclamation & Reuse. Barcelona, 26 October, 2011
[7] Zheng, X., Biopolymer Fouling and its Control in Ultrafiltration (UF) of Secondary Effluent and Surface Water, (Poster), 6th IWA Specialist Conference on Membrane Technology for Water & Wastewater Treatment. 4 - 7 October, 2011
[8] Hadj-Romdhane F., Bourseau P., Jaouen P., Pruvost J., Grizeau D., Croué J.P., Zheng X., Recycling Chlorella vulgaris growth medium: effects on biomass production and medium quality, 4th Congress of the International Society for Applied Phycology – Halifax – 19 to 24 June, 2011
[9] Zheng, X., Fouling in Ultrafiltration of Secondary Effluent and Surface Water: Comparison of Major Foulants and their Control by In-line Coagulation, (oral presentation), 3rd Oxford Water and Membranes Research Event, the University of Oxford, Great Britain, 12-15 September, 2010
[10] Zheng, X., Control of organic fouling in UF of secondary effluent by bio-filtration, (poster), 4th SWITCH Scientific Meeting, Delft, the Netherlands, 4 – 7 October, 2009
[11] Zheng, X., Lab and pilot scale investigation on biopolymer fouling in UF of treated domestic wastewater, (oral presentation) IWA Membrane Technology Conference and Exhibition 2009, Beijing, 1 – 3 September,2009
[12] Zheng, X., Identification of major organic foulants to UF in treated domestic wastewater and its removal through slow sand filtration, (oral presentation) Summer school, Maurach, Germany, 29 September – 1 October, 2008
[13] Zheng, X., Effects of Operational Conditions on the Performance of UF Pilot Plant in filtering tertiary effluent, (oral presentation) IWA Water Conference, Vienna, 8-13 September, 2008
[14] Zheng, X., Slow Sand Filtration of Treated Domestic Wastewater as Pre-treatment to Ultrafiltration, (oral presentation) IWA Specialist Group Particle Separation, Delft, Holland, 6 – 11 July 2008
[15] Zheng, X., Quantification of Biopolymers in Treated Domestic Wastewater as Major Organic Foulants Affecting Fouling Resistance in Dead-end Ultrafiltration, (oral presentation) WASSER 2008 Jahrestagung der Wasserchemischen Gesellschaft, Trier, Germany, April 2008
[16] Zheng, X., Biofiltration for fouling control of UF in secondary effluents, (oral presentation) work shop Fouling in Water Systems, Haifa, Israel, 06 – 07 April 2008
[17] Zheng, X., Slow Sand Filtration of Treated Domestic Wastewater as a Pre-treatment to Ultrafiltration: Effects of Operational Conditions on the Performance of UF Pilot Plant, (oral presentation) 2nd SWITCH Scientific Meeting, Tel-Aviv, Israel, 2007
[18] Zheng, X., Bio-filtration of treated domestic wastewater as a pre-treatment to ultrafiltration: effects on protein and polysaccharide related fouling, (poster presentation) 4th international membranes conference, Harrogate, UK, 2007
專著
Zheng X, Major organic foulants in UF of treated domestic wastewater and their removal by bio-filtration as pre-treatment.
ISBN: 978-3-89720-557-4,
Shaker Verlag, Aachen, Germany
[12] Poorasgari, E.; Larsen, P.; Zheng, X.; Nielsen, P.H.; Keiding, K.; Lykkegaard, C.M., Irreversible fouling of membrane bioreactors due to formation of a non-biofilm gel layer, Water Science and Technology, Vol. 69, No. 8, p. 1641-1647, 2014
[13] Hadj-Romdhane F, Zheng X, Jaouen P, Pruvost J, Grizeau D, Croué JP, Bourseau P., The culture of Chlorella vulgaris in a recycled supernatant: effects on biomass production and medium quality,Vol.132, 285-292, Bioresour Technol. 2013
[14] Zietzschmann, F., Ernst, M., Godehardt, M., Paar, H., Zheng, X., Jekel, M.,Linking UF reversible and irreversible fouling to the water quality of surface water and treated municipal wastewater, Vol.33, 1-11, Water reuse and desalination , 2013
[15] Janota, N., Reillera,P., Zheng, X., Crouéc, J., Benedetti, M., Characterization of humic acid reactivity modifications due to adsorption onto α-Al2O3, Water research, 46 (3) 731 – 740, 2012
[16] Meng, F., Zhou, Z, Ni, B.J., Zheng, X., Huang, G.Z., Jia, X. S., Li, S. Y., Xiong, Y., Sized –based characterization of soluble microbial products (SMP): Tracking their role and fate in a membrane bioreactor (MBR), 45 (15) 4661 – 4671, Water Research, 2011
[17] Huang G, Meng F, Zheng X, Wang Y, Wang Z, Liu H, Jekel M. Biodegradation behavior of natural organic matter (NOM) in a biological aerated filter (BAF) as a pretreatment for ultrafiltration (UF) of river water, Appl Microbiol Biotechnol. 90(5) 1795-803, 2011