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马德方
作者:  来源:  上传:admin  发布时间:2016-09-27 14:15:39  浏览次数:2918

马德方,女,1990年1月生,环境工程博士/助理研究员,硕士生导师。
Email: defangma@sdu.edu.cn; defangmasdu@hotmail.com
地址:山东省济南市山大南路27号
山东大学环境科学与工程学院,邮编:250100

感兴趣的研究方向:
水污染控制技术与资源化
膜污染控制技术
新兴消毒副产物分析识别、生成机理与综合控制

教育经历:
2007.9-2011.6,吉林大学,环境工程,工学学士
2011.9-2016.6,山东大学,环境工程,工学博士

工作经历:
2014.9-2016.3,Rice university,联合培养
2016.7-至今,山东大学环境科学与工程学院, 助理研究员/硕士生导师
2016.7-至今,山东大学化学学院,               博士后

科研项目经历:
[1]生态安全性的中水回用工艺体系研究、山东省环保产业研发项目、主要完成人、2012.01-2014.12。
[2] RO Organic and Biological Fouling Control in MBR-Disinfection-RO System、CHINA SCHOLARSHIP COUNCIL、完成人、2014.09-2016.03。 
[3] A New Strategy for Biofouling Control of Water Filtration Membranes Using D-amino Acids、NSF GRANT OPP FOR ACAD LIA W/INDUS、参与人、2012.01-2015.12。
[4] NSF Nanosystems Engineering Research Center for Nantechnology Enabled Water Treatment Systems (NEWT)、NSF GRANT ENGINEERING RESEARCH CENTERS、参与人、2015.08-2020.07。
[5]海藻酸钠基复合\复配混凝剂去除“纳米颗粒物-腐植酸复合污染物”的作用过程及机制研究、国家自然科学基金面上项目、参与人、2014.01-2017.12。
[6]给水处理中混凝絮体与消毒副产物前驱物关系的研究、国家自然科学基金青年基金、参与人、2009.01-2011.12。

主讲课程:
高分子化学与物理

主要成果:
学术论文:
[1] Defang Ma, Yue Gao, Baoyu Gao*, Qinyan Yue, Impacts of powdered activated carbon addition on trihalomethane formation reactivity of dissolved organic matter in membrane bioreactor effluent, Chemosphere, 117C (2014): 338-344. 
[2] Defang Ma, Baoyu Gao*, Dianxun Hou, Yan Wang, Qinyan Yue, Qian Li, Evaluation of a submerged membrane bioreactor (SMBR) coupled with chlorine disinfection for municipal wastewater treatment and reuse, Desalination, 313 (2013): 134-139. 
[3] Defang Ma, Yingjie Meng, Chufan Xia, Baoyu Gao*, Yan Wang, Fractionation, characterization and C-, N-disinfection byproduct formation of soluble microbial products in MBR processes, Bioresource technology, 198 (2015): 380-387. 
[4] Defang Ma, Baoyu Gao*, Chufan Xia, Yan Wang, Qinyan Yue, Qian Li, Effects of sludge retention times on reactivity of effluent dissolved organic matter for trihalomethane formation in hybrid powdered activated carbon membrane bioreactors, Bioresource technology, 166 (2014): 381-388.
[5] Defang Ma, Bo Peng, Yuhang Zhang, Baoyu Gao*, Yan Wang, Qinyan Yue, Qian Li, Influences of dissolved organic matter characteristics on trihalomethanes formation during chlorine disinfection of membrane bioreactor effluents, Bioresource technology, 165 (2014): 81-87.
[6] Defang Ma, Baoyu Gao*, Shenglei Sun, Yan Wang, Qinyan Yue, Qian Li, Effects of dissolved organic matter size fractions on trihalomethanes formation in MBR effluents during chlorine disinfection, Bioresource technology, 136 (2013): 535-541. 
[7] Defang Ma, Chufan Xia, Baoyu Gao*, Qinyan Yue,Yan Wang, C-, N-DBP formation and quantification by differential spectra in MBR treated municipal wastewater exposed to chlorine and chloramine, Chemical Engineering Journal, 291 (2016): 55-63. 
[8] Defang Ma, Baoyu Gao*, Yan Wang, Qinyan Yue, Qian Li, Factors affecting trihalomethane formation and speciation during chlorination of reclaimed water, Water Science & Technology, 72 (2015): 616-622. 
[9] Chufan Xia, Defang Ma, Baoyu Gao*, Xinxiao Hu, Qinyan Yue, Yingjie Meng, Shuyu Kang, Bei Zhang, Yuanfeng Qi, Characteristics and trihalomethane formation reactivity of dissolved organic matter in effluents from membrane bioreactors with and without filamentous bulking, Bioresource technology, 211 (2016) 183-189.
[10] Yue Gao, Defang Ma., Qinyan Yue, Baoyu Gao*, Xia Huang, Effect of powdered activated carbon (PAC) on MBR performance and effluent trihalomethane formation: At the initial stage of PAC addition, Bioresource Technology, 216 (2016), 838-844.
[11] Fang Wang, Baoyu Gao*, Defang Ma, Ruihua Li, Shenglei Sun, Qinyan Yue, Yan Wang, Qian Li, Effects of operating conditions on trihalomethanes formation and speciation during chloramination in reclaimed water, Environmental Science and Pollution Research, (2015): 1-8.
[12] Ruihua Li, Baoyu Gao*, Defang Ma, Hongyan Rong, Shenglei Sun, Fang Wang, Qinyan Yue, Yan Wang, Effects of chlorination operating conditions on trihalomethane formation potential in polyaluminum chloride-polymer coagulated effluent, Journal of Hazardous Materials, 285 (2015): 103-108.
[13] Shenglei Sun, Zhonglian Yang, Xin Huang, Fan Bu, Defang Ma, Hongyu Dong, Baoyu Gao*, Qinyan Yue, Yan Wang, Qian Li, Coagulation performance and membrane fouling of polyferric chloride/epichlorohydrin–dimethylamine in coagulation/ultrafiltration combined process, Desalination, 357 (2015): 163-170.
[14] Pan Liu, Baoyu Gao*, Ho Kyong Shon, Defang Ma, Hongyan Rong, Pin Zhao, Shuang Zhao, Qinyan Yue, Qian Li, Water flux behavior of blended solutions of ammonium bicarbonate mixed with eight salts respectively as draw solutions in forward osmosis, Desalination, 353 (2014): 39-47.
[15] Bo Guo, Huan Yu, Baoyu Gao*, Hongyan Rong, Hongyu Dong, Defang Ma, Ruihua Li, Shuang Zhao, Coagulation performance and floc characteristics of aluminum sulfate with cationic polyamidine as coagulant aid for kaolin-humic acid treatment, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 481 (2015): 476-484.
[16] Pin Zhao, Baoyu Gao*, Shiping Xu, Jiaojiao Kong, Defang Ma, Ho Kyong Shon, Qinyan* Yue, Pan Liu, Polyelectrolyte-promoted forward osmosis process for dye wastewater treatment – Exploring the feasibility of using polyacrylamide as draw solute, Chemical Engineering Journal, 264 (2015): 32-38.
[17] Xiaochen Li, Baoyu Gao*, Qinyan Yue, Defang Ma, Hongyan Rong, Pin Zhao, Pengyou Teng, Effect of six kinds of scale inhibitors on calcium carbonate precipitation in high salinity wastewater at high temperatures, Journal of Environmental Sciences, 29 (2015): 124-130.
[18] Qi Han, Yan Wang*, Han Yan, Baoyu Gao, Defang Ma, Shenglei Sun, Jianya Ling, Yongbao Chu, Photocatalysis of THM precursors in reclaimed water: the application of TiO2 in UV irradiation, Desalination and Water Treatment, (2015): 1-12.
[19] Xiao Zhan, Baoyu Gao*, Defang Ma, Yan Wang, Qinyan Yue, Effect of pH and Floc Property on Disinfection By-products Precursors Removal by Coagulation in Treating Low Organic Matter Surface Water, Journal of water sustainability, 3 (2013): 209-221.
发明专利:
[1] 王燕,马德方,闫晗,韩绮,高宝玉,岳钦艳,李倩。 一种光催化、内循环厌氧流化膜生物反应器及其工作方法。发明专利,专利号:ZL 2012 1 0422679.4。
[2] 王燕,马德方,闫晗,韩绮,高宝玉,岳钦艳,李倩。一种光催化、内循环厌氧流化膜生物反应器。实用新型,专利号:ZL 2012 2 0565193.1。
[3] 王燕,韩绮,马德方,闫晗,高宝玉,岳钦艳,李倩。一种光催化后置的内循环厌氧流化膜生物反应器及其工作方法。发明专利,专利号:ZL 2012 1 0583164.2。
[4] 王燕,闫晗,马德方,韩绮,高宝玉,岳钦艳, 李倩。一种光催化与好氧生物结合的双重内循环水处理器及其工作方法。发明专利,专利号:ZL 2012 1 0421922.0。
[5] 王燕,闫晗,马德方,韩绮,高宝玉,岳钦艳,李倩。一种光催化与好氧生物法结合的水处理器及其工作方法。发明专利,专利号:ZL 2012 1 0422313.7。
[6] 王燕,闫晗,马德方,韩绮,高宝玉,岳钦艳,李倩。一种光催化与好氧生物法结合的水处理器。实用新型, 专利号:ZL 2012 2 0560873.4。
[7] 王燕,闫晗,马德方,韩绮,高宝玉,岳钦艳,李倩。一种光催化与好氧生物结合的双重内循环水处理器。实用新型,专利号:ZL 2012 2 0565214.X。
[8] 王燕,韩绮,马德方,闫晗,高宝玉,岳钦艳,李倩。一种光催化后置的内循环厌氧流化膜生物反应器。实用新型,专利号:ZL 2012 2 0738523.2。
[9] 王燕,韩绮,闫晗,马德方,高宝玉,岳钦艳,李倩。一种内循环厌氧流化膜生物反应器。实用新型,专利号:ZL 2012 2 0560894.6。
[10] 王燕,闫晗,马德方,韩绮,高宝玉,岳钦艳,李倩。一种利用WO3和稀土金属元素La对光催化剂TiO2进行改性的方法。发明专利,申请公布日:2014.09.24,申请号:2014101394068。
[11] 高宝玉,于欢,郭波,赵爽,马德方,岳钦艳。一种阳离子聚脒絮凝剂及其制备方法。发明专利,申请公布日:2014.05.28,申请号:201410090590。 

(更新于2017年1月)


 
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