豆小敏 副教授 硕士生导师

E- mail: douxiaomin@163.com

研究方向：水污染控制、环境功能材料、生物质资源化
主页：www.researchgate.net/profile/Xiaomin_Dou

个人履历
教育经历：
1996~2000---山西大学，环境科学系，学士
2000~2003---中国农业科学院，农业环境与可持续发展研究所，工学硕士
2003~2005---中国科学院，生态环境研究中心，工学博士
主要工作经历：
2006~2010---北京林业大学，环境科学与工程学院，讲师
2011~迄今---北京林业大学，环境科学与工程学院，副教授
2013~2014---佐治亚理工学院，市政与环境工程学院，访问
教学工作
本科生课程：
《工程流体力学》、《环境监测实验》
研究生课程：
《文献检索与专利写作》、《光谱学谱图解析专题》
科学研究
主要研究领域：
1.抗生素生产废水物化预处理；
2.环境功能材料研发，包括基于生物质功能化的固体酸催化剂研发，除砷降氟新型吸附剂、混凝剂研发及工业应用。
3.畜禽养殖废水处理及固废资源化；
4. 含氟、砷、锑工业废水处理及污染控制
代表性研究项目：
01. 固体酸孔结构-表面化学调控及选择性水解大环内酯药效官能团机制研究，国家自然科学基金委员会，2020/01-2023/12，课题编号：**
02. 内蒙古博大实地化学有限公司工业固体废物用于土壤改良研究项目的测试分析，环境保护部环境工程评估中心委托, 2017/03-2018/03，课题编号： 2017HXFW-HJ-0011
03. 水溶性核壳量子点纳米颗粒在水环境中的聚沉特性及去除研究，北京林业大学科技创新计划项目，2017/05-2018/12，课题编号：2017ZY41
04. 畜禽养殖废水处理一体化设备研发及示范应用，北京市科技计划项目，2015/01-2017/12，课题编号：Z**5008
05. 雨水收集、中水利用与建筑一体化，国际科技合作专项，2010/10-2012/10，课题编号：2010DAF72740-06-08
06. 基于阳极表面活性调控的零价铁/炭电偶腐蚀除砷体系研究，国家自然科学基金委员会，2008/01-2010/12，课题编号：**
07. 铁基氧化物结构及表面特性与As(V)吸附活性关系解析，教育部科学技术研究项目，2007/09-2010/12，课题编号：108018
08. 北京市科技新星计划A类资助，北京市科技计划项目，2009/01-2011/12，课题编号：2008A033
09. 铝基希土氧化物吸附剂制备优化与现场运行评价，国家高技术研究发展计划子课题，2008/01-2009/12，课题编号：1105-863HZ-007
10. 基于引黄水源水质变化的水量调控技术研究，国家水体污染控制与治理科技重大专项，2008/09-2010/12，课题编号：2008ZX07422-002-004
代表性文章

（1）X. Dou*, D. Mohan, C.U. Pittman, Jr. Arsenate adsorption on three types of granular schwertmannite, Water Research, 47 (2013) 2938-2948.
（2）X. Dou*, Y. Zhang, H. Wang, T. Wang, Y. Wang. Performance of granular zirconium-iron oxide in the removal of fluoride from drinking water, Water Research, 45 (2011) 3571-3578.
（3）X. Dou*, G.C. Wang, M. Zhu, F. Liu, W. Li, D. Mohan, C.U. Pittman, Jr. Identification of Fe and Zr oxide phases in an iron-zirconium binary oxide and arsenate complexes adsorbed onto their surfaces, Journal of Hazardous Materials, 353 (2018) 340-347.
（4）X. Dou*, R. Li, B. Zhao, W. Liang. Arsenate removal from water by zero-valent iron/activated carbon galvanic couples, Journal of Hazardous Materials, 182 (2010) 108-114.
（5）S. Dong, X. Dou*, D. Mohan, C.U. Pittman, J. Luo, Synthesis of graphene oxide/schwertmannite nanocomposites and their application in Sb(V) adsorption from water, Chemical Engineering Journal, 270 (2015) 205-214.
（6）X. Zhao, X. Dou*, D. Mohan, C.U. Pittman, Y.S. Ok, X. Jin. Antimonate and antimonite adsorption by a polyvinyl alcohol-stabilized granular adsorbent containing nanoscale zero-valent iron, Chemical Engineering Journal, 247 (2014) 250-257.
（7）X. Dou*, D. Mohan, C.U. Pittman, S. Yang. Remediating fluoride from water using hydrous zirconium oxide, Chemical Engineering Journal, 198-199 (2012) 236-245.
（8）X. Dou*, D. Mohan, X. Zhao, C.U. Pittman, Antimonate removal from water using hierarchical macro-/mesoporous amorphous alumina, Chemical Engineering Journal, 264 (2015) 617-624.
（9）Z. Chen, X. Dou*, Y. Zhang, et al. Rapid thermal-acid hydrolysis of spiramycin by silicotungstic acid under microwave irradiation, Environmental Pollution, 249 (2019) 36-44.
（10）W. Yang, Y.S. Ok, X. Dou*, et al., Effectively remediating spiramycin from production wastewater through hydrolyzing its functional groups using solid superacid TiO2/SO4, Environmental Research, 175 (2019) 393-401.
（11）Y. Deng, Y.S. Ok, D. Mohan, C.U. Pittman, Jr., X. Dou*. Carbamazepine removal from water by carbon dot-modified magnetic carbon nanotubes, Environmental Research, 169 (2018) 434-444.
（12）X. Chen, Y.S. Ok, D. Mohan, C.U. Pittman, Jr., X. Dou*. The stability and removal of water-dispersed CdSe/CdS core-shell quantum dots from water, Chemosphere, 185 (2017) 926-933.
（13）X. Dou*, Y. Li, D. Mohan, C.U. Pittman, M. Hu. A property-performance correlation and mass transfer study of As(v) adsorption on three mesoporous aluminas, RSC Advances, 6 (2016) 80630-80639.
（14）W. Yang, X. Dou*, Y. Li, D. Mohan, C.U. Pittman, Y.S. Ok. Performance and mass transfer of aqueous fluoride removal by a magnetic alumina aerogel, RSC Advances, 6 (2016) 112988-112999.
（15）X. Li, X. Dou*, J. Li. Antimony(V) removal from water by iron-zirconium bimetal oxide: Performance and mechanism, Journal of Environmental Sciences, 24 (2012) 1197-1203.
（16）Y. Li, D. Mohan, C.U. Pittman, Y.S. Ok, X. Dou*. Removal of antimonate and antimonite from water by schwertmannite granules, Desalination and Water Treatment, 57 (2016) 25639-25652.
（17）X. Dou*, Y. Zhang*, B. Zhao, X. Wu, Z. Wu, M. Yang, Arsenate adsorption on an Fe–Ce bimetal oxide adsorbent: EXAFS study and surface complexation modeling, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 379 (2011) 109-115.
（18）K. Xu, C. Zhang, X. Dou*, W. Ma, C. Wang, Optimizing the modification of wood waste biochar via metal oxides to remove and recover phosphate from human urine, Environmental Geochemistry and Health, (2017).
（19） X. Chen, X. Dou*, D. Mohan, C. U. Pittman, Jr., M. Hu, and Y. Ok. Effects of surface iron hydroxyl group site densities on arsenate adsorption by iron oxide nanocomposites, Nanoscience and Nanotechnology Letters, 8 (2016), 1020–1027.
（20）X. Dou, M. Yang, Y. Pei, X. Huang, T. Kato, Occurrence of arsenic in groundwater in the suburbs of beijing and its removal using an iron-cerium bimetal oxide adsorbent, Water Quality Research Journal of Canada, 41 (2006) 140–146.
（21）M. Tang, X. Dou, Z. Tian, M. Yang, Y. Zhang, Enhanced hydrolysis of streptomycin from production wastewater using CaO/MgO solid base catalysts, Chemical Engineering Journal, 355 (2019) 586-593.
（22）Y. Zhang, D. Wei, R. Huang, M. Yang, S. Zhang, X. Dou, D. Wang, V. Vimonses, Binding mechanisms and QSAR modeling of aromatic pollutant biosorption on penicillium oxalicum biomass, Chemical Engineering Journal, 166 (2011) 624-630.
（23）J. Li, X. Dou, H. Qin, Y. Sun, D. Yin, X. Guan, Characterization methods of zerovalent iron for water treatment and remediation, Water Research, 148 (2019) 70-85.
（24）M. Yang. Y. Zhang, X. Dou, He Hong, D. Wang, Arsenate adsorption on an Fe-Ce bimetal oxide adsorbent: Role of surface properties, Environmental Science and Technology, 39 (2005) 7246-7253.
（25）M. Ahmad, S.S. Lee, X. Dou, D. Mohan, J.K. Sung, J.E. Yang, Y.S. Ok, Effects of pyrolysis temperature on soybean stover- and peanut shell-derived biochar properties and TCE adsorption in water, Bioresource Technology, 118 (2012) 536-544.
（26）J.G. Hong, B. Zhang, S. Glabman, N. Uzal, X. Dou, H. Zhang, X. Wei, Y. Chen, Potential ion exchange membranes and system performance in reverse electrodialysis for power generation: A review, Journal of Membrane Science, 486 (2015) 71-88.
（27）Y. Zhang, X. Dou, B. Zhao, M. Yang, T. Takayama, S. Kato, Removal of arsenic by a granular Fe–Ce oxide adsorbent: Fabrication conditions and performance, Chemical Engineering Journal, 162 (2010) 164-170.
（28）B. Zhao, Y. Zhang, X. Dou, X. Wu, M. Yang, Granulation of Fe–Al–Ce trimetal hydroxide as a fluoride adsorbent using the extrusion method, Chemical Engineering Journal, 185-186 (2012) 211-218.
（29）X. Wu, Y. Zhang, X. Dou, B. Zhao, M. Yang, Fluoride adsorption on an Fe–Al–Ce trimetal hydrous oxide: Characterization of adsorption sites and adsorbed fluorine complex species, Chemical Engineering Journal, 223 (2013) 364-370.
（30）K. Xu, F. Lin, X. Dou, M. Zheng, W. Tan, C. Wang, Recovery of ammonium and phosphate from urine as value-added fertilizer using wood waste biochar loaded with magnesium oxides, Journal of Cleaner Production, 187 (2018) 205-214.
（31）Y. Zhang, X. Dou, M. Yang, H. He, C.Y. Jing, Z.Y. Wu, Removal of arsenate from water by using an Fe-Ce oxide adsorbent: Effects of coexistent fluoride and phosphate, Journal of Hazardous Materials, 179 (2010) 208-214.
（32）X. Wu, Y. Zhang, X. Dou, M. Yang, Fluoride removal performance of a novel Fe-Al-Ce trimetal oxide adsorbent, Chemosphere, 69 (2007) 1758-1764.
（33）X. Yang, E.E. Kwon, X. Dou, M. Zhang, K.H. Kim, D.C.W. Tsang, Y.S. Ok, Fabrication of spherical biochar by a two-step thermal process from waste potato peel, The Science of the Total Environment, 626 (2018) 478-485.
（34）Y.A. Almaroai, M. Vithanage, A.U. Rajapaksha, S.S. Lee, X. Dou, Y.H. Lee, J.-K. Sung, Y.S. Ok, Natural and synthesised iron-rich amendments for As and Pb immobilisation in agricultural soil, Chemistry and Ecology, 30 (2014) 267-279.
（35）L. Chen, T.-J. Wang, H.-X. Wu, Y. Jin, Y. Zhang, X.-M. Dou, Optimization of a Fe–Al–Ce nano-adsorbent granulation process that used spray coating in a fluidized bed for fluoride removal from drinking water, Powder Technology, 206 (2011) 291-296.
（36）L. Chen, H.-X. Wu, T.-J. Wang, Y. Jin, Y. Zhang, X.-M. Dou, Granulation of Fe–Al–Ce nano-adsorbent for fluoride removal from drinking water by spray coating on sand in a fluidized bed, Powder Technology, 193 (2009) 59-64.
（37）H. Dong, X. Guan, D. Wang, C. Li, X. Yang, X. Dou, A novel application of H₂O₂-Fe(II) process for arsenate removal from synthetic acid mine drainage (AMD) water, Chemosphere, 85 (2011) 1115-1121.
（38）X. Guan, H. Dong, J. Ma, I.M.C. Lo, X. Dou, Performance and mechanism of simultaneous removal of chromium and arsenate by Fe(II) from contaminated groundwater, Separation and Purification Technology, 80 (2011) 179-185.
（39）T. Wang. H. Wu, X. Dou, B. Zhao, L. Chen, and Y. Jin, Spray Coating of Adsorbent with polymer latex on sand particles for fluoride removal in drinking water, (2008). Industrial and Engineering ChemIstry Research, 2008, 47 (14), pp 4697–4702
（40）M. Tang, X. Dou, C. Wang, Z. Tian, M. Yang, Y. Zhang, Abundance and distribution of antibiotic resistance genes in a full-scale anaerobic-aerobic system alternately treating ribostamycin, spiramycin and paromomycin production wastewater, Environmental Geochemistry and Health, 39 (2017) 1595-1605.
（41）M. Vithanage, A.U. Rajapaksha, M. Ahmad, M. Uchimiya, X. Dou, D.S. Alessi, Y.S. Ok, Mechanisms of antimony adsorption onto soybean stover-derived biochar in aqueous solutions, Journal of Environmental Management, 151 (2015) 443-449.
（42）M. Vithanage, A.U. Rajapaksha, X. Dou, N.S. Bolan, J.E. Yang, Y.S. Ok, Surface complexation modeling and spectroscopic evidence of antimony adsorption on iron-oxide-rich red earth soils, Journal of Colloid and Interface Science, 406 (2013) 217-224.
（43）Y. Wang, B. Du, X. Dou, J. Liu, B. Shi, D. Wang, H. Tang, Study on the pore surface fractal dimension and surface acid–base properties of natural particles around Guanting reservoir, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 307 (2007) 16-27.
（44）H. Wu, T. Wang, L. Chen, Y. Jin, Y. Zhang, X. Dou, Granulation of Fe–Al–Ce hydroxide nano-adsorbent by immobilization in porous polyvinyl alcohol for fluoride removal in drinking water, Powder Technology, 209 (2011) 92-97.
（45）Y. Zhang, X. Dou, J. Liu, M. Yang, L. Zhang, Y. Kamagata, Decolorization of reactive brilliant red X-3B by heterogeneous photo-Fenton reaction using an Fe–Ce bimetal catalyst, Catalysis Today, 126 (2007) 387-393.


授权发明专利情况
01. 王毅力, 冯晶, 梁文艳, 豆小敏. 一种村镇生活污水的处理方法及其设备. CNA, 2012-10-24.
02. 梁文艳, 许佳, 梁志霞, 王毅力, 豆小敏. 电促除氟吸附复合颗粒、电促除氟吸附复合板及制备方法. CNA, 2012-05-30.
03. 梁文艳, 许佳, 豆小敏, 王毅力. 一种高效复合型电促除氟吸附剂的成型方法. CNA, 2012-03-14.
04. 梁文艳, 许佳, 王毅力, 豆小敏. 一种高效电促吸附除氟吸附剂及其制备方法. CNA, 2012-02-01.
05. 王洪杰, 孙德智, 王毅力, 豆小敏, 曲丹, 封莉. 一种去除水中重金属的吸附剂及其制备方法. CNA, 2011-11-09.
06. 王毅力, 张腾, 豆小敏, 梁文艳. 饮用水除氟电吸附电极的制备方法及除氟电吸附电极. CNA, 2011-11-09.
07. 豆小敏, 梁文艳, 杨硕, 王毅力. 一种吸附剂粉末成型方法. CNA, 2011-03-30.
08. 豆小敏,梁文艳,陈苗,王毅力,杨硕. 一种复合金属氧化物除氟吸附剂及其制备方法. CN,2010-03-17.


社会工作
1.主要环境类期刊审稿人。
2.为企业提供工业废水除氟、除砷处理新建及既有工艺改造方面的咨询及技术支持。
荣誉
01. 华夏建设科学技术奖，华夏建设科学技术奖励委员会，二等奖，2018年
02. 第十三届青年教师教学基本功比赛，北京林业大学，二等奖，2017年
03. 家琪云龙青年教师奖，北京林业大学教育基金会，2013年
04. 北京市科技新星（A类），北京市科学技术委员会，2008年