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校训:立德树人,兼济天下
张秋林

 

简介

    张秋林,男,教授,1983年7月生,湖北黄冈人,博士。2012年6月毕业于四川大学化学学院,并于同年8月进入昆明理工大学环境科学与工程学院工作。2013年10月破格晋升副教授,2017年10月破格晋升教授。主要从事含能工业废气及柴油车尾气催化净化的研究工作。作为参与人获国家级教学成果二等奖1项,有色金属工业科技进步一等奖1项。主持国家自然科学基金项目2项,其它省部级及横向项目5项。在国内外公开发表学术论文60余篇,其中SCI收录 52篇,申请发明专利20余项,成功开发一种低热值工业废气催化燃烧催化剂(RC-101)

联系方式

工作地点:昆明理工大学环境科学与工程学院 A201B205

E-mail lin200572@163.com     QQ229545003

研究领域

l  含能工业废气催化净化及资源化技术开发与推广应用

l  柴油车尾气催化净化技术开发

l  室内及车内微量有机污染物催化净化

l  CO2的催化转化与资源化利用

l  新型纳米多孔催化材料制备科学与技术研究

实验设备和仪器:

实验室拥有美国Thermo原位傅里叶变换红外光谱仪、英国Renishaw原位激光显微共聚焦拉曼光谱仪、英国Hiden四级杆质谱仪、美国麦克BET物理吸附仪、德国RBR-ECOM烟气分析仪、气相色谱仪、微型固定床在线评价装置、程序升温化学吸附仪、化学气相沉积系统、催化剂成型机等各种国内外先进设备,能充分满足科学研究的需求。

 

 学历背景

2007.9-2012.6      四川大学化学学院,获物理化学专业理学博士学位(硕博连读)  

2003.9-2007.7           湖北师范学院化学与环境工程系,获化学专业理学学士学位

发表的论文

2018

[1] Jie Fan, Ping Ning, Zhongxian Song, Xin Liu, Qiulin Zhang*, et al.  Mechanistic aspects of NH3-SCR reaction over CeO2/TiO2-ZrO2-SO42? catalyst: In situ DRIFTS investigationChemical Engineering Journal. 2018, 334:855-863. SCIIF=6.216

[2] Qiulin Zhang, Jie Fan, Ping Ning, Zhongxian Song, et al. In situ DRIFTS investigation of NH3-SCR reaction over CeO2/zirconium phosphate catalystApplied Surface Science. 2018, 435:1037-1045. SCIIF=3.387

[3] Jing Wang, Tengfei Zhang, Zhongxian Song, Ping Ning, Qiulin Zhang, et al. Template in situ inducing dispersion of nickel on SBA-15 for methane reforming with carbon dioxideResearch on Chemical Intermediates. 2018Accept.  SCIIF=1.369

2017

[1] Mingzhi WangQiulin Zhang*Tengfei ZhangYiru Wang, et al.  Facile one-pot synthesis of highly dispersed Ni nanoparticles embedded in HMS for dry reforming of methaneChemical Engineering Journal. 2017313:1370-1381. SCIIF=6.216

[2] Qiulin ZhangTengfei ZhangYuzhen ShiBin Zhao, et al. A sintering and carbon-resistant Ni-SBA-15 catalyst prepared by solid-state grinding method for dry reforming of methaneJournal of CO2 Utilization. 2017,17:10-19. SCIIF=4.292

[3] Zhongxian Song, Liangtao Yin, Qiulin Zhang*, Ping Ning, et al. Relationship between the WO3 states and reaction pathway over CeO2-ZrO2-WO3 catalysts for selective catalytic reduction of NO with NH3Molecular Catalysis. 2017437:95-104. SCIIF=4.211

[4] Zhongxian Song, Qiulin Zhang*,  Yixing Ma,  Ping Ning*,  et al. Mechanism-dependent on the different CeO2 supports of phosphotungstic acid modification CeO2 catalysts for the selective catalytic reduction of NO with NH3Journal of the Taiwan Institute of Chemical Engineers. 201771:277-284. SCIIF=4.217

[5] Qiulin Zhang, Huimin Wang, Ping Ning*, Zhongxian Song, et al. In situ DRIFTS studies on CuO-Fe2O3 catalysts for low temperature selective catalytic oxidation of ammonia to nitrogenApplied Surface Science. 2017, 419:733-743. SCIIF=3.387

[6] Qiulin Zhang, Kaixian Long, Jing Wang, Tengfei Zhang, et al. A novel promoting effect of chelating ligand on the dispersion of Ni species over Ni/SBA-15 catalyst for dry reforming of methaneInternational Journal of Hydrogen Energy. 2017, 42:14103-14114. SCIIF=3.582

[7] Xin Liu, Qiulin Zhang*, Ping Ning*, Qixian Liu, et al. Probing the thermal-enhanced catalytic activity of CO oxidation over Pd/OMS-2 catalystsRSC Advances. 2017, 7: 41936-41944. SCIIF=3.108

[8] Qiulin Zhang*, Jing Wang, Ping Ning, Tengfei Zhang, et al. Dry reforming of methane over Ni/SBA-15 catalysts prepared by homogeneous precipitation methodKorean Journal of Chemical Engineering. 201734:2823-2831. SCIIF=2.007

[9] Yue Zhou, Xin Liu, Qiulin Zhang*, Ping Ning*, et al. Effects of precipitants and surfactants on catalytic activity of Pd/CeO2 for CO oxidationResearch on Chemical Intermediates. 201743:6187-6205. SCIIF=1.369

[10] Yankang Duan, Qiulin Zhang*, Zhongxian Song, Jing Wang, et al. Effect of preparation methods on the catalytic activity of Co3O4 for the decomposition of N2OResearch on Chemical Intermediates. 201743:7241-7255. SCIIF=1.369

[11] Qiulin Zhang,  Qixian Liu,  Ping Ning*,  Xin Liu, et al. Performance and kinetic study over Pd/OMS-2 catalyst for CO catalytic oxidation: effect of preparation methodResearch on Chemical Intermediates. 201743:2017-2032. SCIIF=1.369

2016

[1] Qiulin Zhang, Jinhui Zhang, Zhongxian Song, Ping Ning, et al. A novel and environmentally friendly SO42-/CeO2 catalyst for the selective catalytic reduction of NO with NH3Journal of Industrial and Engineering Chemistry. 201634:165-171. SCIIF=4.421

[2] Zhongxian Song,  Qiulin Zhang*, Ping Ning, Jie Fan, et al. Effect of CeO2 support on the selective catalytic reduction of NO with NH3 over P-W/CeO2Journal of the Taiwan Institute of Chemical Engineers. 2016,  65:149-161. SCIIF=4.217

[3] Zhongxian Song, Ping Ning, Qiulin Zhang*, Xin Liu, et al. The roel of surface properties of silicotungstic acid doped CeO2 for selective catalytic reduction of NOx by NH3: Effect of precipitantJournal of Molecular Catalysis A: Chemical. 2016413:15-23. SCIIF=4.211

[4] Xin Liu, Ping Ning, Lisi Xu, Qixian Liu, Zhongxian Song, Qiulin Zhang*. Low-temperature catalytic oxidation of CO over highly active mesoporous Pd/CeO2-ZrO2-Al2O3 catalystRSC Advances. 2016,  6:41181-41188. SCIIF=3.108

[5] Zhongxian Song, Qiulin Zhang*,  Ping Ning*, Yu Wang, et al. Catalytic    hydrolysis of HCN on ZSM-5 modified by Fe or Nb for HCN removal: surface species and performanceRSC Advances. 20166:111389-111397. SCIIF=3.108

[6] Zhongxian Song, Xiang Wu, Qiulin Zhang*, Ping Ning*, et al. Effect of surface species and structure on the performance of CeO2 and SO42 doped MCM-41 catalyst toward NH3-SCRRSC Advances. 20166:69431-69441. SCIIF=3.108

[7] Zhongxian Song, Ping Ning, Qiulin Zhang*, Hao Li, Jinhui Zhanget al. Activity and hydrothermal stability of CeO2ZrO2WO3 for the selective catalytic reduction of NOx with NH3Journal of Environmental Sciences. 201642:168-177. SCIIF=2.865

[8] Zhongxian Song, Qiulin Zhang*,  Ping Ning*, Xin Liu, et al. Introduction manner of sulfate acid for improving the performance of SO42/CeO2 on selectivecatalytic reduction of NO by NH3Journal of Rare Earths. 201634:667-674. SCIIF=2.429

[9] Zhongxian Song, Qiulin Zhang*, Ping Ning*, Xin Liu, et al. Effect of copper precursors on the catalytic activity of Cu/ZSM-5 catalysts for selective catalytic reduction of NO by NH3Research on Chemical Intermediates. 201642:7429-7445. SCIIF=1.369

 

目前研究组承担的主要科研课题

[1]     铈基催化剂/ZSM-5膜双层多效催化剂协同净化HCNN2ONH3研究 (国家自然科学基金,经费:25万,No. 21307047)

[2]     金属离子改性ZSM-5HCN催化水解的理论与实验研究 (国家自然科学基金,经费:41万,No.  21567030)

[3]     Shell 粉煤气化制合成氨液氮洗尾气分段催化氧化及资源化研究(国家自然科学基金,经费:40万,No.21666014

[4]     低热值合成氨驰放气能源回收利用(与云天化合作项目,经费:9万)

[5]     低热值液氮洗尾气催化氧化催化剂与云天化合作项目,经费:12

对学生素质、学科基础等的要求

吃苦耐劳、勤奋好学,英语成绩优秀者优先考虑,欢迎具有环境工程、环境科学和化工背景的同学加盟本研究组。

 

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