基本信息

张长森，博士/副教授/硕士生导师/大气所副所长

联系邮箱：zhangsx007@163.com

通讯地址：郑州市科学大道100号郑州大学协同创新中心

研究方向

工业废气（烟气和VOCs）、臭氧（O₃）等净化和控制；机动车尾气中碳烟的催化氧化、固体废弃物高值化利用研究（生物质、废塑料等）。

个人荣誉

河南省优秀硕士学位论文指导教师（2022年）

科研平台

河南省环境化学与低碳技术重点实验室

河南省能源与环境国际联合实验室

郑州市环境科学与技术重点实验室

科研经历

2010年6月郑州大学化学工艺博士学位；2010年7月郑州大学化学学院及郑州大学环境科学研究院讲师、副教授；2019年11月郑州大学生态与环境学院大气环境研究所副所长。围绕固废能源化利用和环境催化研究共发表论文50余篇，其中SCI/EI收录40余篇，授权专利6项；参编《生物基燃料技术经济评估》，译著《NICOTINE》。河南省科技厅成果鉴定两项，河南省科技进步二等奖一项，河南省教育厅科技成果一等奖一项；在研和完成郑州市外专局、科技局、河南省科技厅、河南省生态与环境保护厅、科技部项目20多项。

近年来承担的主要项目

Ø 河南省专业学位研究生精品教学案例项目, 河南省教育厅（2024年）

Ø 空气质量精细化提升及保障技术服务项目,（2022年）

Ø 玺宝环境工程建设咨询及大气智慧管控平台开发项目（2021-2022年）

Ø 惠济区省级生态文明示范区规划编制项目（2021-2022年）

Ø 生物质耦合富氢废弃物一步法催化加氢制备高选择性单环芳烃关键技术研发, 河南省科技厅（2020-2022年）212102311148

Ø 国家重点研发计划：中原城市群及周边地区大气复合污染联防联控技术集成与应用示范2017YFC0212400子课题（2017-2020年）：中原城市群区域轻工及新兴产业VOC排放特征研究（2017YFC0212401）

Ø 禹州市环境保护局第二次污染普查委托项目，禹州市环境保护局（2018-2019年）

Ø 郑州高新区2018年大气污染源排放清单编制项目，郑州高新区环保安监局（2018-2019年）

Ø 郑州高新区第二次全国污染源普查项目，郑州高新区环保安监局（2018-2019年）

Ø 河南省第二次全国污染源普查入户调查及数据汇总阶段技术服务项目-子课题，河南省生态环境厅（2018-2020年）

Ø 建材行业大气污染源排放监测项目，生态环境部规划院（2019-2020年）

Ø 生物油催化加氢工艺研究，河南省科技厅（144300510058，2014-2015年）

Ø 郑州市生态文明先行示范区建设方案编制项目（2014-2016年）

Ø 河南省科技厅“三区”人才支持计划项目，河南省科技厅（2014-2016年）

Ø 生物质热解催化加氢制燃料油研究项目，郑州市外专局（2012-2016年）

近年代表性论文

1) Runhan Niu, Changsen Zhang*, Panpan Liu, Nan Jiang, Congcong Li. Constructing asymmetric active Fe³⁺-O_V-Mn⁴⁺ sites at the Fe2O3-MnO2 interface for low-temperature soot combustion, Applied Catalysis B: Environment and Energy, 358 (2024) 124365.

2) Runhan Niu, Congcong Li, Qilong Guo, Panpan Liu, Changsen Zhang*. Boosting catalytic combustion of diesel soot particles over potassium-promoted CoMn-Co3O4 dual spinel structure catalyst, Applied Catalysis B: Environment and Energy, 354 (2024) 124142

3) Runhan Niu, Changsen Zhang*, Congcong Li, Panpan Liu. Boosting the removal of diesel soot particles by regulating the Pr−O strength over transition metal doped Pr6O11 catalysts, Journal of Hazardous Materials 476 (2024) 135010

4) Congcong Li, Haijian Yang, Wenyue Dai, Runhan Niu, Qilong Guo, Changsen Zhang*. Design strategies for MOFs-derived Ce10-Zr O catalysts with polyhedral coordination to enhance soot combustion, Journal of Alloys and Compounds 992 (2024) 17463

5) Congcong Li, Wenyue Dai, Zihan Li, Runhan Niu, Qilong Guo, Haonan Qiao, Panpan Liu, Changsen Zhang*. Experimental and theoretical investigation on the high activity La0.8-xSr0.2KxMn1-yByO3-δ perovskite catalyst with combined A and B site modifications, Molecular Catalysis 559 (2024) 114085

6) Yuanxin Zhang, Hang Li, Jingqing Gao, Secil Tutar Oksuz, Changsen Zhang*, Panpan Liu*. Unveiling the microbial co-metabolism behavior for electrical-driven degradation of phenol in bioanode, Process Safety and Environmental Protection 190 (2024) 98–107

7) Long Ren, Yupu Xu, Wenjun Chen, Changsen Zhang*. Production of Aromatic Hydrocarbons from Co-Hydropyrolysis of Biomass Components and HDPE with Application of Modified HZSM-5 Catalyst, Chem. Biodiversity 2024, e202400150

8) Haonnan Qiao, Yaqi Feng, Changsen Zhang*. Aromatic-rich oil production from catalytic co-pyrolysis of pine sawdust and LDPE with bifunctional biochar by different preparation methods. J Chem Technol Biotechnol 2024; 99: 1626–1636

9) Congcong Li, Yuhang Wang, Runhan Niu, Qilong Guo, Changsen Zhang*. Transition metal modified manganese-based catalysts for soot oxidation promoted by noncompetitive adsorption of oxygen: Experiments and DFT calculations, Journal of Industrial and Engineering Chemistry 126 (2023) 454–464

10) Congcong Li; Jie Wang; Wenyue Dai; Changsen Zhang*. Bismuth Manganese Catalysts for Soot Oxidation in Diesel Engine Exhaust: Effect of Preparation Methods on Active Oxygen Species, ChemistrySelect, 2023 8(5), DOI:10.1002/slct.202203167

11) Wenyue Dai, Zihan Li, Congcong Li, Changsen Zhang*, Fang Wang, Panpan Liu, Haonan Qiao. Revealing the effects of preparation methods over Ce-MnOx catalysts for soot combustion: Physicochemical properties and catalytic performance. Journal of Industrial and Engineering Chemistry. https://doi.org/10.1016/j.jiec.2023.01.013

12) Fang Wang; Yinchi Xu; Wenyue Dai; Fangzheng Su; Li Juexiu; Changsen Zhang*; Ruiqin Zhang; Panpan Liu*. Simultaneous Removal of Toluene in Gas and Electricity Production by Using a Single-Chamber Microbial Fuel Cell-Biotricking Filter System, ACS Sustainable Chemistry & Engineering, 2022, 10(26), DOI:10.1021/acssuschemeng.2c01897

13) Wenyue Dai; Congcong Li; Fang Wang; Changsen Zhang*. Engineering surface Mn-enriched and regulating active oxygen species over LaMnO3 catalysts by synergistic modification of acid etching and potassium supported for soot removal. New Journal of Chemistry, 2022, 46(46), DOI:10.1039/D2NJ04144H

14) Xiangfei Xue; Changsen Zhang; Dan Xia; Yifei Sun Dual-catalyst catalytic pyrolysis of poplar sawdust: A systematic study on first-layered catalysts. Chemical Engineering Journal, 431:134251. DOI:10.1016/j.cej.2021.134251

15) Zihan Li；Changsen Zhang*. Regulation of Active Oxygen Species in Cu-MnOx through MOF Templates for Soot Removal. Energy & Fuels, 2021. 35(23): p. 19655-19664.

16) Wenjun Chen; Xingmin Xu; Changsen Zhang*; Yuhang Wang; Jie Wang; Ruiqin Zhang. A novel production of monocyclic aromatic hydrocarbons via one-step catalytic conversion of pine sawdust and waste plastics over Pd/trap-HZSM-5. Fuel, 2021, 293(11):120503

17) Jie Wang; Changsen Zhang*; Yuhang Wang; Wenjun Chen; Zihan Li; Yaqi Feng. The Effect of Synthesis Methods on Active Oxygen Species of MnOx-CuO in Soot Combustion. Catalysis Letters (2021).

18) Yuhang Wang; Yunyun Xie; Changsen Zhang*; Wenjun Chen; JieWang; Ruiqin Zhang; HaijianYang. Tuning the Oxygen Mobility of CeO2 via Bi-doping for Diesel Soot Oxidation: Experimental and DFT Studies, Journal of Environmental Chemical Engineering, 2021, 9(1) 105049

19) Yuhang Wang; Longzhu Zhang; Changsen Zhang*; Yunyun Xie; Wenjun Chen; Jie Wang; Ruiqin Zhang. Promoting the Generation of Active Oxygen over Ag-Modified Nanoflower-like α-MnO2 for Soot Oxidation: Experimental and DFT Studies, Industrial & Engineering Chemistry Research, 2020, 59, 22, 10407-10417

20) Wenjun Chen; Changsen Zhang*; Yunyun Xie; Yuhang Wang; Jie Wang; Ruiqin Zhang, Aromatic hydrocarbons production and synergistic effect of plastics and biomass via one-pot catalytic co-hydropyrolysis on HZSM-5, Journal of Analytical and Applied Pyrolysis, 2020, 147:104800

21) Xie, Yunyun; Zhang, Changsen*; Wang, Dengtai; Lu, Jifu; Wang, Yuhang; Wang, Jie; Zhang, Longzhu; Zhang, Ruiqin，Catalytic performance of a Bi2O3-Fe2O3 system in soot combustion. New Journal of Chemistry, 2019, 43(38): 15368-15374.

22) Dengtai Wang; Changsen Zhang*; Yunyun Xie; Zeyou Pan; Xiangfei Xue; Ruiqin Zhang, A study on the catalytic oxidation of soot by Sn–Ce composite oxides: adsorbed oxygen and defect sites synergistically enhance catalytic activity, New Journal of Chemistry, 2019, 43: 17423-17432.

23) Xue, Xiangfei; Pan, Zeyou; Zhang, Changsen*; Wang, Dengtai; Xie, Yunyun; Zhang, Ruiqin, Analysis of Bio-Oil Derived from Catalytic Pyrolysis of Pine Sawdust over Sodium Salts-Supported gamma-Al2O3, Environmental Progress & Sustainable Energy, 2019, 38(5): UNSP 13174.

24) Tang, Songshan; Zhang Changsen*; Xue, Xiangfei; Pan, Zeyou; Wang, Dengtai; Zhang, Ruiqin, Catalytic pyrolysis of lignin over hierarchical HZSM-5 zeolites prepared by post-treatment with alkaline solutions, Journal of Analytical and Applied Pyrolysis, 2019, 137: 86-95.