教师名录
陈白杨
通讯地址:深圳市南山区西丽大学城哈工大校区E栋202C
电子邮件:poplar_chen@hotmail.com; chen.baiyang@hit.edu.cn
联系电话:13480727605

个人简介

陈白杨,副教授,博导,高层次海外回国人员,主要研究领域为饮用水安全和环境分析化学。

研究方向

方向:
1. 水体消毒及消毒副产物的形成、去除、迁移、和转化机理和速率
2. 环境污染物分析方法

教育经历

2007.05 –2009.4   美国亚利桑那州立大学,博士后,环境工程

2003.09 –2007.1  美国亚利桑那州立大学,博士,环境工程

2002.08 –2003-05   美国约翰-霍普金斯大学,硕士,环境工程

1994.09 –1998-06   中国同济大学,学士,高分子材料科学与工程

研究与工作经历

2011.04 –现在  副教授博导,哈尔滨工业大学深圳研究生院

2009.04 –2011.04  高级工程师,AECOM集团, 财富五百强企业

2007.06 –2011.12  海外华人环境学者工程师协会,创始人兼会长

1998.08 ~ 2002.05  深圳深日油墨有限公司(化学工程师)

专业资质与学术兼职

2007- 期刊受邀审稿人  1. Environmental Science and Technology
2. Water Research
3. Chemosphere
4. Science of Total Environment
5. Journal of Environmental Quality
6. Desalination
7. Environmental Engineering and Science
8. Water and Environment Journal
9. Water Science and Technology: Water Supply
10. Water Environment Research
11. Environmental Chemistry
12. Environmental Pollution
13. Environment Science and Pollution Research
14. 美国水环境研究基金会项目评审成员,评审课题: Linking Receiving Water Impacts to Sources and to Water Quality Management Decisions

科研项目

2013.01 –2016.12.  国家自然科学基金面上项目,管网内含氮和碘代消毒副产物的降解性能及其QSAR研究(项目号:51278144)
2012.01 –2013.12  哈工大创新科研基金,消毒副产物在饮用水管网的迁移转化和归宿(项目号:FF29100001)
2013.6-2016.6  深圳市科技研发项目,深圳市饮用水三致性消毒副产物的降解机理与控制技术研究(项目号:JCYJ20120613150442560)
2013.12-2015.12  深圳市海外高层次人才项目,深圳市供水系统中痕量有机氮污染物的检测与控制(项目号:KQCX20130627094615414)
2015.12-2017.12  深圳市基础研究:水中有机卤污染物的新型简易快速检测方法研究

科研成果及奖励

2011年10月  深圳市首批孔雀计划人才(B类)、地方级高级人才、南山区领航人才
2006年10月  国际水协北京会议受邀报告人
2006年6月  美国水工作者协会年度展会做演讲报告
2003年8月  亚利桑那州立大学全额博士奖学金
1998年5月  瑞士圣加仑大学国际学生交流协会年度管理会议论文竞赛奖

发明专利

1. 一种基于电渗析预处理方式直接测量水体中溶解性有机氮浓度的方法,陈白杨,朱安邦、张靓、隋月婷,批准号2014101401343(发明)
2. 一种可调多联式电渗析预处理装置,朱安邦、张靓、陈白杨、隋月婷,批准号2014201693296(实用新型)

论文及著作

1. Chen B, Westerhoff P, Krasner Stuart W. Fate and Transport of Wastewater-Derived Disinfection By-Products in Surface Waters. Disinfection By-Products in Drinking Water. ACS Symposium Series. 995: American Chemical Society; 2008. p. 257-73.
2. Dotson A, Westerhoff P, Chen B, Lee W. Organic Nitrogen Occurrence and Characterization. Disinfection By-Products in Drinking Water. ACS Symposium Series. Washington, DC: American Chemical Society; 2008. p. 274-88.
3. Chen B, Nam S-N, Westerhoff PK, Krasner SW, Amy G. Fate of effluent organic matter and DBP precursors in an effluent-dominated river: A case study of wastewater impact on downstream water quality. Water Res. 2009;43(6):1755-65.
4. Krasner SW, Westerhoff P, Chen B, Rittmann BE, Amy G. Occurrence of Disinfection Byproducts in United States Wastewater Treatment Plant Effluents. Environ Sci Technol. 2009;43(21):8320-5.
5. Krasner SW, Westerhoff P, Chen B, Rittmann BE, Nam S-N, Amy G. Impact of Wastewater Treatment Processes on Organic Carbon, Organic Nitrogen, and DBP Precursors in Effluent Organic Matter. Environ Sci Technol. 2009;43(8):2911-8.
6. Chen B, Lee W, Westerhoff PK, Krasner SW, Herckes P. Solar photolysis kinetics of disinfection byproducts. Water Res. 2010;44(11):3401-9.
7. Chen B, Westerhoff P. Predicting disinfection by-product formation potential in water. Water Res. 2010;44(13):3755-62.
8. Chen B. Hydrolytic Stabilities of Halogenated Disinfection Byproducts: Review and Rate Constant Quantitative Structure–Property Relationship Analysis. Environ Eng Sci. 2011;28(6):385-94.
9. Chen B, Kim Y, Westerhoff P. Occurrence and treatment of wastewater-derived organic nitrogen. Water Res. 2011;45(15):4641-50.
10. Jin W, Zhou J, Chen B, Zhu X, Cui C. Modeling volatilization and adsorption of disinfection byproducts in natural watersheds. J Environ Monit. 2012;14(11):2990-9.
11. Yang X, Peng J, Chen B, Guo W, Liang Y, Liu W, et al. Effects of ozone and ozone/peroxide pretreatments on disinfection byproduct formation during subsequent chlorination and chloramination. J Hazard Mater. 2012;239–240(0):348-54.
12. Yang X, Shang C, Shen Q, Chen B, Westerhoff P, Peng J, et al. Nitrogen Origins and the Role of Ozonation in the Formation of Haloacetonitriles and Halonitromethanes in Chlorine Water Treatment. Environ Sci Technol. 2012;46(23):12832-8.
13. Baiyang C, Xiaoqi G, Zhong T, Wenbiao J. Chloral Hydrate Control by Point-of-Use and Household Appliances. Recent Advances in Disinfection By-Products: American Chemical Society; 2015. p. 363-79.
14. Chen B, Westerhoff P, Zhang L, Zhu A, Yang X, Wang C. Application of Pretreatment Methods for Reliable Dissolved Organic Nitrogen Analysis in Water—A Review. Critical Reviews in Environmental Science and Technology. 2015;45(3):249-76.
15. Chen B, Zhang T, Bond T, Gan Y. Development of Quantitative Structure Activity Relationship (QSAR) Model for Disinfection Byproduct (DBP) Research: A Review of Methods and Resources. J Hazard Mater. 2015;299:260-79.
16. Chen B, Zhu A, Sui Y. Factors Affecting the Detection of Dissolved Organic Nitrogen Via Electrodialysis Pretreatment. Disinfection By-products in Drinking Water: The Royal Society of Chemistry; 2015. p. 253-61.
17. Zhu A, Chen B, Zhang L, Westerhoff P. Improved Analysis of Dissolved Organic Nitrogen in Water via Electrodialysis Pretreatment. Anal Chem. 2015;87(4):2353-9.
18. Lv X, Tao J, Chen B, Zhu X. Roles of temperature and flow velocity on the mobility of nano-sized titanium dioxide in natural waters. Sci Total Environ. 2016;565:849-56.
19. Ma S, Guo X, Chen B. Toward better understanding of chloral hydrate stability in water: Kinetics, pathways, and influencing factors. Chemosphere. 2016;157:18-24.
20. 吕小慧, 陈白杨, 朱小山. 氧化石墨烯的水环境行为及其生物毒性. 中国环境科学. 2016;36(11):3348-59.
21. Ma S, Gan Y, Chen B, Tang Z, Krasner S. Understanding and exploring the potentials of household water treatment methods for volatile disinfection by-products control: Kinetics, mechanisms, and influencing factors. J Hazard Mater. 2017;321:509-16.
22. Shi W, Wang L, Chen B. Kinetics, mechanisms, and influencing factors on the treatment of haloacetonitriles (HANs) in water by two household heating devices. Chemosphere. 2017;172:278-85.
23. Wang J, Song M, Chen B, Wang L, Zhu R. Effects of pH and H2O2 on ammonia, nitrite, and nitrate transformations during UV254nm irradiation: Implications to nitrogen removal and analysis. Chemosphere. 2017;184:1003-11.
24. Wang, L., Niu, R., Chen, B., Wang, L. and Zhang, G. (2017) A comparison of photodegradation kinetics, mechanisms, and products between chlorinated and brominated/iodinated haloacetic acids in water. Chemical Engineering Journal 330, 1326-1333.
25. Bu, Y.; Wang, L.; Chen, B.; Niu, R.; Chen, Y., Effects of typical water components on the UV254 photodegradation kinetics of haloacetic acids in water. Sep. Purif. Technol. 2018, 200, 255-265.
26. Lu, J.; Tian, S.; Lv, X.; Chen, Z.; Chen, B.; Zhu, X.; Cai, Z., TiO2 nanoparticles in the marine environment: Impact on the toxicity of phenanthrene and Cd2+ to marine zooplankton Artemia salina. Sci. Total Environ. 2018, 615, (Supplement C), 375-380.
27. Lv, X.; Yang, Y.; Tao, Y.; Jiang, Y.; Chen, B.; Zhu, X.; Cai, Z.; Li, B., A mechanism study on toxicity of graphene oxide to Daphnia magna: Direct link between bioaccumulation and oxidative stress. Environ. Pollut. 2018, 234, 953-959.
28. Wang, L.; Chen, B.; Zhang, T., Predicting hydrolysis kinetics for multiple types of halogenated disinfection byproducts via QSAR models. Chemical Engineering Journal 2018, 342, 372-385.


会议论文及发表演说

1. Zhong Tang, Xiaoqi Guo, Baiyang Chen, etc. Removal of Trihalomethanes from Water by POU facilities. DBP2014, Germany
2. Anbang Zhu, Baiyang Chen, etc. DON analysis with electrodialysis pretreatment. ACS national meeting, 2014, USA
3. Tian Zhang, Baiyang Chen, etc. The use of QSAR techniques on DBP studies: a review. ACS national meeting, 2014, USA

任教和任导师经历

讲授课程(全英文)  1. 水化学:主要讲述酸碱平衡、络合平衡、氧化还原平衡、溶解平衡等因素对物质在水体存在形式和浓度的影响;
2. 污染物迁移转化及模拟:主要讲述水解、光解、生物降解、吸附、挥发等因素对物质在不同水体、不同水文、不同环境等条件下的迁移转化规律。
指导学生 (年份,姓名,性别,本科院校,课题方向)  指导学生:
2011,陶晶,女,哈尔滨商业大学,纳米材料稳定性(已毕业)
2012,张甜,女,东南大学,DBP的QSAR模拟(已毕业)
2012,郭晓崎,女,武汉理工大学,三氯乙醛降解(已毕业)
2012,汤钟,安徽工业大学,卤代甲烷去除(已毕业)
2012,朱安邦,湖南科技大学,电渗析方法测有机氮(已毕业)
2012,张靓,女,河北农业大学,渗析加电方法测有机氮(已毕业)
2012,宁存鑫,广西大学,海岸生态修复(已毕业)
2013,隋月婷,女,河北科技大学,痕量有机氮方法(已毕业)
2013,王立伟,男,哈尔滨商业大学,卤代乙酸去除(已毕业)
2013,甘轶群,女,华中科大武昌分校,卤代甲烷分解(已毕业)
2013,尹怡惟,男,哈尔滨工程大学,高级氧化除污染物(已毕业)
2014,石文栋,男,安徽工业大学,卤代乙腈去除(已毕业)
2014,马圣存,男,中国矿业大学,消毒副产物机理分析(已毕业)
2014,王军利,男,武汉大学,高级氧化技术矿化有机物(已毕业)
2014,牛瑞兰,女,吉林建筑大学,卤代乙酸去除(已毕业)
2015,张玉琳,女,四川农业大学,电渗析有机物分析
2015,宋明芮,女,湖南科技大学,有机卤光解评价
2015,孙亚南,女,石河子大学,RO去除DBP评价
2015,唐妍涤,女,吉林大学,碳酸银测TOX方法评价
2016,陈怡,女,华侨大学,卤乙酸的高温去除和生成
2016,龙亮臣,男,哈工大,泳池尿素去除方法探索
2016,陈述伟,男,哈工大,卤乙醛的高温去除
2016,许昊宇,男,中国农业大学,卤乙醛的光解去除
2017,孙小波,男,河北大学,有机卤氮调研及去除
2017,张驰,男,河南师范大学,消毒副产物调研及去除
2017,张琦,男,沈阳化工大学,双氧水调研及发生去除
2017,接婷,女,东北石油大学,消毒副产物脱卤方法

硕士招生要求(报名者请思考):  做事:做完,做好,做超前!
态度:会做,会说,会思考!
毕业前须有一篇SCI论文发表!
热爱科研,以学术为人生规划!

招生特点:  本团队允许、鼓励、支持,且创造条件帮助学生进行留学申请。最希望招到有志于学术并到国外读博的优秀学生。要求如下:
1. 本科专业为环境、给排水、生物、化学、材料等领域(不在乎背景大小,但在乎热情多少);
2. 在2年半时间内,完成安排的研究任务,独立或在老师的辅导下撰写至少一篇SCI论文;
3. 具有较强的自控能力,能利用闲时参加托福GRE考试并获得较好成绩,并积极申请留学。
承诺:实现上述目标,若毕业半年内无任何发达国家大学提供带奖学金offer,老师承担你所有考试及申请费用!

有疑问请email联系或回帖至:http://emuch.net/bbs/viewthread.php?tid=5960355
硕士待遇:  1、研一按照学校基本助学金每月750+表现奖
2、研二进入课题后每月平均1100助研金
3、独立或在老师辅导下所发SCI论文奖励(3000/篇)
4、独立或在老师辅导下所发SCI论文:担任第一作者

博士生待遇与要求:  1、博1-4按政府奖励标准执行(4000/月左右)
2、3篇SCI论文后发表SCI论文奖励(3000/篇);
3、独立或在老师辅导下所发SCI论文:担任第一作者
4、鼓励并协助国家公派留学0.5-1年
博后待遇:  1、政府标准补助(年薪5.7)
2、开题或结题正常通过后政府奖励12万/年;
3、每年3篇SCI论文之后更多SCI论文奖励(3000/篇);
4、独立或在老师辅导下所发SCI论文:担任第一作者
最后更新:2018-04-12 14:02:44