姓名:王健
职称:副教授、硕士生导师
办公地址:北京市昌平区北农路2号华北电力大学主楼G座623
电子邮箱:jwang@ncepu.edu.cn
办公电话:13311067715
研究方向:
主要从事纳米催化、吸附材料合成及大气污染控制技术研究。
一、个人简介
王健,男,1988年9月出生,汉族,河北秦皇岛人。2016年毕业于中国科学院过程工程研究所获环境工程专业博士学位。现为华北电力大学环境科学与工程学院副教授、硕士生导师。
主要研究方向为大气污染控制,包括烟气、废气中挥发性有机物、氮氧化物等典型污染物吸附、催化、吸收等控制技术研发,在相关领域主持国家自然科学基金青年项目、科技部重点研发计划项目子课题、北京市科委课题子课题等科研任务7项,在国内外刊物发表学术论文30篇,授权发明专利11项,兼任“Chemical Engineering Journal”等国际期刊审稿人。
二、学习工作经历
[1] 2021-12 至 今, 华北电力大学, 环境科学与工程学院, 副教授
[2] 2019-07 至 2021-11, 中国科学院过程工程研究所, 环境技术与工程研究部, 副研究员
[3] 2016-08 至 2019-06, 中国科学院过程工程研究所, 环境技术与工程研究部, 助理研究员
[4] 2013-09 至 2016-07, 中国科学院大学, 环境工程, 博士
[5] 2010-09 至 2013-07, 中国科学院大学, 环境工程, 硕士
[6] 2006-09 至 2010-07, 东北石油大学, 化学工程与工艺, 学士
三、主讲课程
大气环境学,32课时,2021-2022第二学期
挥发性有机污染物控制技术,16课时,2021-2022第二学期
碳循环与碳捕集,32课时,2022-2023第一学期
四、主持科研项目
[1] 国家自然科学基金委员会, 青年科学基金项目, 51708540, 负载型Ru催化剂催化氧化(Cl)-VOCs中的载体效应及颗粒尺寸效应研究, 2018-01-01 至 2020-12-31, 25万元, 结题, 主持
[2] 北京市科学技术委员会, 北京市科技计划课题(子课题), Z191100009119008, 京津冀区域重点VOCs排放行业治理技术评价与筛选及减排潜力研究, 2019-04 至 2021-12, 65万元, 结题, 主持
[3] 科学技术部, 国家重点研发计划项目(子课题), 2018YFC0213406, 硫的资源化关键技术, 2018-07至 2021-06, 75万元, 结题, 主持
[4] 科学技术部, 国家重点研发计划项目(子课题), 2017YFC0210503, 吸收液硫酸化高效浸出回收有价金属及砷无害化技术研究, 2017-07 至 2020-12, 80万元, 结题, 主持
[5] 企业横向, 印染厂有机废气处理技术和装备的研究与开发, 2018-10 至 2020-12, 145万元, 结题, 主持
五、代表性论文
[1] J. Wang, X. Li, B. Wang, J. Xiong, Y. Li, Y. Guo, T. Zhu, W. Xu*, Emission characteristics of volatile organic compounds during a typical top-charging coking process, Environmental Pollution, 308 (2022) 119648.
[2] X.F. Li, J. Wang*, Y.Y. Guo, T.Y. Zhu, W.Q. Xu, Adsorption and desorption characteristics of hydrophobic hierarchical zeolites for the removal of volatile organic compounds, Chemical Engineering Journal, 411 (2021).
[3] J. Wang, H.N. Zhao, J.F. Song, T.Y. Zhu, W.Q. Xu, Structure-activity relationship of manganese oxide catalysts for the catalytic oxidation of (chloro)-VOCs, Catalysts, 9 (2019).
[4] J. Wang, H.N. Zhao, X.L. Liu, W.Q. Xu, Y.Y. Guo, J.F. Song, T.Y. Zhu, Study on the catalytic properties of Ru/TiO2 catalysts for the catalytic oxidation of (chloro)-aromatics, Catalysis Letters, 149 (2019) 2004-2014.
[5] J. Wang, X.L. Liu, J.L. Zeng, T.Y. Zhu, Catalytic oxidation of trichloroethylene over TiO2 supported ruthenium catalysts, Catalysis Communications, 76 (2016) 13-18.
[6] J. Wang, X. Wang, X.L. Liu, T.Y. Zhu, Y.Y. Guo, H. Qi, Catalytic oxidation of chlorinated benzenes over V2O5/TiO2 catalysts: The effects of chlorine substituents, Catalysis Today, 241 (2015) 92-99.
[7] J. Wang, X. Wang, X.L. Liu, J.L. Zeng, Y.Y. Guo, T.Y. Zhu, Kinetics and mechanism study on catalytic oxidation of chlorobenzene over V2O5/TiO2 catalysts, Journal of Molecular Catalysis a-Chemical, 402 (2015) 1-9.
[8] Y. Zheng, Y.Y. Guo, J. Wang, L. Luo, T.Y. Zhu, Ca doping effect on the competition of NH3-SCR and NH3 oxidation reactions over vanadium-based catalysts, Journal of Physical Chemistry C, 125 (2021) 6128-6136.
[9] Y. Zheng, Y.Y. Guo, L. Luo, J. Wang, T.Y. Zhu, Poisoning process of the V2O5-CeO2/TiO2 catalyst by the cumulative effect of CaO, Energy & Fuels, 35 (2021) 14876-14884.
[10] Y.Y. Guo, L. Luo, Y. Zheng, J. Wang, T.Y. Zhu, Low-medium temperature application of selective catalytic reduction denitration in cement flue gas through a pilot plant, Chemosphere, 276 (2021).
[11] Y.X. Wang, W.Q. Xu, Y. Yang, C.Q. Li, J. Wang, T.Y. Zhu, Enhancement of NO2 adsorption performance during adsorption-regeneration cycles over Pt/Ba/Al2O3 catalyst, Fuel, 279 (2020).
[12] C.Q. Li, Y. Yang, W. Ren, J. Wang, T.Y. Zhu, W.Q. Xu, Effect of Ce doping on catalytic performance of Cu/TiO2 for CO oxidation, Catalysis Letters, 150 (2020) 2045-2055.
[13] Y. Yang, W.Q. Xu, J. Wang, T.Y. Zhu, New insight into simultaneous removal of NO and Hg0 on CeO2-modified V2O5/TiO2 catalyst: A new modification strategy, Fuel, 249 (2019) 178-187.
[14] Y.Y. Guo, L. Luo, B.L. Mu, J. Wang, T.Y. Zhu, Ash- and alkali-poisoning mechanisms for commercial vanadium-titanic-based catalysts, Industrial & Engineering Chemistry Research, 58 (2019) 22418-22426.
[15] J. Xiong, Y.R. Li, J. Wang, Y. Yang, T.Y. Zhu, Evaluation of sulfur trioxide detection with online isopropanol absorption method, Journal of Environmental Sciences, 72 (2018) 25-32.
[16] Y.H. Wu, W.Q. Xu, Y. Yang, J. Wang, T.Y. Zhu, Support effect of Mn-based catalysts for gaseous elemental mercury oxidation and adsorption, Catalysis Science & Technology, 8 (2018) 297-306.
[17] R.J. Ji, J. Wang, W.Q. Xu, X.L. Liu, T.Y. Zhu, C.Y. Yan, J.F. Song, Study on the key factors of NO oxidation using O3: The oxidation product composition and oxidation selectivity, Industrial & Engineering Chemistry Research, 57 (2018) 14440-14447.
[18] Y. Yang, W.Q. Xu, Y.H. Wu, J. Wang, T.Y. Zhu, Inhibition effect of HBr over a commercial V2O5-WO3/TiO2 catalyst in a NH3-SCR process, Catalysis Communications, 94 (2017) 82-85.
[19] X.L. Liu, J.L. Zeng, W.B. Shi, J. Wang, T.Y. Zhu, Y.F. Chen, Catalytic oxidation of benzene over ruthenium-cobalt bimetallic catalysts and study of its mechanism, Catalysis Science & Technology, 7 (2017) 213-221.
[20] W.B. Shi, X.L. Liu, J.L. Zeng, J. Wang, Y.D. Wei, T.Y. Zhu, Gas-solid catalytic reactions over ruthenium-based catalysts, Chinese Journal of Catalysis, 37 (2016) 1181-1192.
[21] X.L. Liu, J.L. Zeng, J. Wang, W.B. Shi, T.Y. Zhu, Catalytic oxidation of methyl bromide using ruthenium-based catalysts, Catalysis Science & Technology, 6 (2016) 4337-4344.
[22] Y.Y. Guo, Y.R. Li, T.Y. Zhu, J. Wang, M. Ye, Modeling of dioxin adsorption on activated carbon, Chemical Engineering Journal, 283 (2016) 1210-1215.
[23] W.Q. Xu, L. Tong, H. Qi, X. Zhou, J. Wang, T.Y. Zhu, Effect of flue gas components on Hg0 oxidation over Fe/HZSM-5 catalyst, Industrial & Engineering Chemistry Research, 54 (2015) 146-152.
[24] H. Qi, W.Q. Xu, J. Wang, L. Tong, T.Y. Zhu, Hg0 removal from flue gas over different zeolites modified by FeCl3, Journal of Environmental Sciences, 28 (2015) 110-117.
[25] X.L. Liu, J. Wang, J.L. Zeng, X. Wang, T.Y. Zhu, Catalytic oxidation of toluene over a porous Co3O4-supported ruthenium catalyst, Rsc Advances, 5 (2015) 52066-52071.
[26] X.L. Liu, J. Wang, X. Wang, T.Y. Zhu, Simultaneous removal of PCDD/Fs and NOx from the flue gas of a municipal solid waste incinerator with a pilot plant, Chemosphere, 133 (2015) 90-96.
[27] Y.Y. Guo, Y.R. Li, J. Wang, T.Y. Zhu, M. Ye, Effects of activated carbon properties on chlorobenzene adsorption and adsorption product analysis, Chemical Engineering Journal, 236 (2014) 506-512.
六、授权发明专利
[1] 朱廷钰; 王健; 徐文青 ; 一种高炉煤气干法脱硫及硫资源化的装置, 2021-6-4, 中国, ZL202010169696.6
[2] 朱廷钰; 王健; 赵海楠; 徐文青 ; 一种锰铈钌复合氧化物催化剂及其制备方法和用途, 2021-1-5, 中国, ZL201810620896.1
[3] 朱廷钰; 王健; 徐文青 ; 一种分区氧化的臭氧分布器及其布置方式和用途, 2020-9-15, 中国, ZL201811124113.7
[4] 朱廷钰; 王健; 赵海楠; 徐文青 ; 一种综合处理铜渣尾矿和冶炼烟气的方法, 2020-7-31, 中国, ZL201811419619.0
[5] 朱廷钰; 王健; 刘霄龙; 曾俊淋 ; 一种用于催化氧化VOCs的钌催化剂、制备方法及其用途, 2017-12-26, 中国, ZL201510665019.2
[6] 朱廷钰; 王健; 刘霄龙; 王雪 ; 一种催化氧化VOCs的混相二氧化钛负载钌催化剂、制备方法及其用途, 2017-10-20, 中国, ZL201510389148.3
[7] 朱廷钰; 郭旸旸; 郑扬; 王健 ; 一种原位降解烟气中二噁英类物质的系统和方法, 2020-11-10, 中国, ZL201710645917.0
[8] 朱廷钰; 赵海楠; 王健; 徐文青 ; 一种钾掺杂γ二氧化锰催化剂及其制备方法和用途, 2020-11-10,中国, ZL201811354452.4
[9] 朱廷钰; 刘霄龙; 王健; 曾俊淋 ; 一种用于PTA氧化尾气净化的整体式钌催化剂、制备方法及其用途,2018-1-12, 中国, ZL201510575295.X
[10] 朱廷钰; 刘霄龙; 王雪; 王健 ; 一种催化氧化VOCs的负载型双金属催化剂、制备方法及其应用, 2017-11-14, 中国, ZL201410642073.0