环境工程系

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李方

发布时间:2020-09-21

李方教授博导 | 硕导

环境工程系

导师职务:科研副院长

导师资质:注册环评工程师

联系方式:021-67792544

电子邮箱:lifang@dhu.edu.cn

办公版权所有:RAYBET雷竞技雷竞技竞猜app楼4131室

个人简介

主持2项国家自然科学基金,多项 “纺织火电行业水资源高效循环与资源回用技术及示范”国家重点研发计划、“流域水质目标管理技术体系集成研究项目”水专项项目等子课题,;主持“全国第二次污染源普查-纺织服装行业产排污量核算方法”课题和《纺织行业产污系数手册》编制,负责行业标准《排污许可证申请与核发规范 纺织印染工业》和《纺织工业污染防治可行技术指南》的编制工作,参与《纺织工业企业环境保护设计规范》修订工作;主持完成污水处理工程设计及环境管理咨询类项目50余项。曾获得国家科技进步奖二等奖1项,获上海市及中国纺织工业联合会等省部级科技进步奖5项;目前已发表期刊论文110余篇,;授权发明专利30项。

社会兼职:

国家纺织工业环境保护工程技术中心副主任

中国纺织工业联合会印染协会环保技术专业委员会委员

中国膜工业协会疏水膜技术委员会委员

中国化工学会新材料委员会委员            

《中国化学快报》青年委员会委员


教育经历

1997.09-2001.07    苏州城建环保学院   本科

2001.09-2006.03    RAYBET雷竞技                博士


工作经历

2006.07-2012.01    RAYBET雷竞技                    教师(讲师/副教授)

2006.07-2012.01    德州大学奥斯汀分校    访问学者

2012.01-至今         RAYBET雷竞技                     教师(副教授/教授)


主讲课程

1、水污染控制工程;2、清洁生产工艺学;3、环境工程传质理论基础


研究方向

水污染控制工程;膜分离;环境管理(环境评价与排污许可)


承担科研项目

1、 全国第二次污染源普查-纺织服装行业产排污量核算方法,2018.9-2019.12

2、 流域水质目标管理技术体系集成研究项目,《纺织工业污染防治可行技术指南》编制2017.6-2020.06

3、 国家重点研发技术“纺织火电行业水资源高效循环与资源回用技术及示范”,2016.07-2019.12

4、 采用氨基功能化氧化石墨烯改性正渗透膜的抗污染机理及时效性研究,2015.01-2018.12

5、《排污许可证申请与核发技术规范 纺织印染行业》,2016.07-2018.12

6、 畜牧养殖废水资源化技术开发,2016.10-2017.10

7、 煤化工含酚废水的可生化性试验研究,2015.12-2016.12


代表性论著
1. S. Yang, Y. Liu, C. Shen, F. Li, B. Yang, M. Huang, M. Yang, Z. Wang, W. Sand, Rapid decontamination of tetracycline hydrolysis product using electrochemical CNT filter: Mechanism, impacting factors and pathways, Chemosphere, 244 (2020).
2. Y. Liu, J. Mei, C. Shen, M. Huang, M. Yang, Z. Wang, W. Sand, F. Li, Rapid and selective electrochemical transformation of ammonia to N-2 by substoichiometric TiO2-based electrochemical system, Rsc Advances, 10 (2020) 1219-1225.
3. C. Shen, H. Li, Y. Wen, F. Zhao, Y. Zhang, D. Wu, Y. Liu, F. Li, Spherical Cu2O-Fe3O4@chitosan bifunctional catalyst for coupled Cr-organic complex oxidation and Cr(VI) capture-reduction, Chem Eng J, 383 (2020).
4.Y. Pan, Y. Liu, D. Wu, C. Shen, C. Ma, F. Li, Y. Zhang, H. Ma, Application of Fenton pre-oxidation, Ca-induced coagulation, and sludge reclamation for enhanced treatment of ultra-high concentration poly(vinyl alcohol) wastewater, J Hazard Mater, 389 (2020) 121866-121866.
5.Shen, C., Pan, Y., Wu, D., Liu, Y., Ma, C., Li, F*., Ma, H., and Zhang, Y.: ‘A crosslinking-induced precipitation process for the simultaneous removal of poly(vinyl alcohol) and reactive dye: The importance of covalent bond forming and magnesium coagulation’, Chem Eng J, 2019, 374, pp. 904-913
5.Ma, C., Liu, Y., Li, F*., Shen, C., Huang, M., Wang, Z., Cao, C., Zhou, Q., Sheng, Y., and Sand, W.: ‘CFD simulations of fiber-fiber interaction in a hollow fiber membrane bundle: Fiber distance and position matters’, Sep Purif Technol, 2019, 209, pp. 707-713
7.Liu, Y., Wu, P., Liu, F., Li, F.*, An, X., Liu, J., Wang, Z., Shen, C., and Sand, W.: ‘Electroactive Modified Carbon Nanotube Filter for Simultaneous Detoxification and Sequestration of Sb(III)’, Environ Sci Technol, 2019, 53, (3), pp. 1527-1535
8.Liu, Y., Liu, F., Qi, Z., Shen, C., Li, F.*, Ma, C., Huang, M., Wang, Z., and Li, J.: ‘Simultaneous oxidation and sorption of highly toxic Sb(III) using a dual-functional electroactive filter’, Environ Pollut, 2019, 251, pp. 72-80
9.Liu, Y., Liu, F., Ding, N., Shen, C., Li, F.*, Dong, L., Huang, M., Yang, B., Wang, Z., and Sand, W.: ‘Boosting Cr(VI) detoxification and sequestration efficiency with carbon nanotube electrochemical filter functionalized with nanoscale polyaniline: Performance and mechanism’, The Science of the total environment, 2019, 695, pp. 133926-133926
10.Li, F., Peng, X., Liu, Y., Mei, J., Sun, L., Shen, C., Ma, C., Huang, M., Wang, Z., and Sand, W.: ‘A chloride-radical-mediated electrochemical filtration system for rapid and effective transformation of ammonia to nitrogen’, Chemosphere, 2019, 229, pp. 383-391
11.Pan, Y., Li, F*., Shen, C., Chen, H., Liu, Y., and Xiao, D.: ‘Two-stage membrane concentration of poly(vinyl alcohol) in desizing wastewater by membrane distillation and ultrafiltration’, Journal of Textile Research, 2018, 39, (11), pp. 96-102
12.Liu, Y., Li, F*., Xia, Q., Wu, J., Liu, J., Huang, M., and Xie, J.: ‘Conductive 3D sponges for affordable and highly-efficient water purification’, Nanoscale, 2018, 10, (10), pp. 4771-4778
13.Li, F., Xia, Q., Gao, Y., Cheng, Q., Ding, L., Yang, B., Tian, Q., Ma, C., Sand, W., and Liu, Y.: ‘Anaerobic biodegradation and decolorization of a refractory acid dye by a forward osmosis membrane bioreactor’, Environmental Science-Water Research & Technology, 2018, 4, (2), pp. 272-280
14.Li, F., Huang, J., Xia, Q., Lou, M., Yang, B., Tian, Q., and Liu, Y.: ‘Direct contact membrane distillation for the treatment of industrial dyeing wastewater and characteristic pollutants’, Sep Purif Technol, 2018, 195, pp. 83-91
15.Zhao, F., Li, F.*, and Ma, C.-Y.: ‘Desalination Performance of Graphene Oxide-PEG Nanohybrid Membranes’, in Adiguzel, O., Doumanidis, C.C., Wang, C., Wang, M.C., and Zaidi, B. (Eds.): ‘Proceedings of the 3rd Annual International Conference on Advanced Material Engineering’ (2017), pp. 256-260
16.Tian, Q., Zhuang, L., Ong, S.K., Wang, Q., Wang, K., Xie, X., Zhu, Y., and Li, F.*: ‘Phosphorus (P) recovery coupled with increasing influent ammonium facilitated intracellular carbon source storage and simultaneous aerobic phosphorus & nitrogen removal’, Water Res, 2017, 119, pp. 267-275
17.Tian, Q., Wang, Q., Zhu, Y., Li, F.,* Zhuang, L., and Yang, B.: ‘Enhanced primary sludge sonication by heat insulation to reclaim carbon source for biological phosphorous removal’, Ultrason Sonochem, 2017, 34, pp. 123-129
18.Li, F., Zhao, F., Huang, M., Ma, C., Yang, B., and Tian, Q.: ‘Thin-film composite membranes with nanocomposite substrate modified with graphene oxide/TiO2 for forward osmosis process’, Desalination and Water Treatment, 2017, 70, pp. 64-78
19.Li, F., Xia, Q., Cheng, Q., Huang, M., and Liu, Y.: ‘Conductive Cotton Filters for Affordable and Efficient Water Purification’, Catalysts, 2017, 7, (10)

20.Li, F., Sun, M., Cheng, Q., Tian, Q., Ma, C., and Huang, M.: ‘Characterization and antifouling performance of cellulose triacetate forward osmosis membranes modified with graphene oxide’, Desalination and Water Treatment, 2017, 62, pp. 31-42


学术报告

1、2020,Sixteenth International Conference on Environmental, Cultural, Economic &Social Sustainability, Chile, oral, Accounting Methods For Pollutant Generation Coefficients Of Pinpoint Pollution Sources In The Textile Industry: Second National Census Of Pollution Sources In China ;

22019,2019年先进纤维及聚合物材料会议,Shanghai,口头报告,纤维微塑料的产生与预防机制

3、 20192019年亚洲纺织工程学术年会,杭州,口头报告,Accounting Methods for Pollutant Generation Coefficients of Pollution Sources in the Textile Industry

42017,the 10th World Congress on Water Resources and Environment , Athens, Oral, Performance of direct contact membrane distillation for simulated dyeing wastewater treatment


专利授权

1、 一种氨基改性氧化石墨烯复合正渗透膜的制备方法,发明专利,中国,ZL201410124106.2

2、 一种氨基改性氧化石墨烯接枝改性超滤微滤膜的制备方法,发明专利,中国,ZL201410267511.X

3、 一种使用好氧颗粒污泥的自生动态膜生物反应器,发明专利,中国,ZL201310496755.0

4、 一种适用于染整废水处理的强化循环高效厌氧生物反应器,发明专利,中国,ZL201310492133.0

5、 一种印花退浆混合废水的处理装置和方法,发明专利,中国,ZL201310492125.6

6、 一种利用生物制剂进行PVA接枝的膜表面亲水改性方法,发明专利,中国,ZL201210435124.3

7、 一种印染废水生物处理的动态组合反应装置,发明专利,中国,ZL2012100059

8、 一种适用于染整废水处理的强化循环高效厌氧生物反应器,发明专利,中国,CN203683215U

9、 一种氨基改性氧化石墨烯复合正渗透膜的制备方法,发明专利,中国,CN103861472B

10、 一种氨基改性氧化石墨烯复合正渗透膜的制备方法,发明专利,中国,CN103861472B

11、 一种印花退浆混合废水的处理装置和方法,发明专利,中国,CN103523996B

12、 一种用于上流式曝气生物滤池的出水过滤器,发明专利,中国,CN104771944B

13、 一种氨基改性氧化石墨烯接枝改性超滤/微滤膜的方法,发明专利,中国,CN104001436B


成果转化

1、转化成果名称,转化类型(独家实施许可、实施许可、技术转让)


标准制定

1、《排污许可证申请与核发规范 纺织印染工业》,HJ 861—2017

2、《纺织工业企业环境保护设计规范》,GB 50425-2019

3、《纺织工业污染防治可行技术指南》(征求意见稿)


荣誉及获奖

12019,印染废水低成本处理和高效再生利用关键技术与产业化,中国纺织工业联合会科技进步奖,一等奖,2/15

22010纺织工业节能减排与清洁生产审核,中国纺织工业联合会科技进步奖二等奖8/12

32008印染废水大通量膜处理及回用技术与产业化,国家科技进步奖二等奖,4/15

42007中国纺织工业协会科技进步奖二等奖,棉印染废水回用工程技术的研究 6/10


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