姓名:叶光华
职称:副教授
电话:18817517348
电子邮件:guanghuaye@ecust.edu.cn
【教育背景】
2014.09至2015.09,伦敦大学学院,化学工程,博士联合培养
2011.09至2016.06,pg模拟器试玩入口官网,化学工程,博士研究生
2007.09至2011.06,浙江工业大学,化学工程与工艺,本科
【工作经历】
2020.09至今,pg模拟器试玩入口官网,副教授
2018.10至2020.09,pg模拟器试玩入口官网,特聘副研究员
2018.07至2018.10,汉堡工业大学,访问学者
2016.07至2018.07,pg模拟器试玩入口官网,师资博士后
【研究方向】
以化学反应工程为研究方向,基于反应-传递耦合规律与强化方法,开发化学反应过程及其工业催化剂和反应器,具体包括:
1. 反应器多尺度模拟和工业化放大
2. 工业催化剂外形、孔道和表界面结构设计
3. 高值化学品反应技术开发
4. 芯片湿法刻蚀技术开发
【承担项目】
1. 国家自然科学基金面上项目,氧化铝负载金属成型催化剂的动态多尺度结构及传质-反应过程强化,主持
2. 国家自然科学基金青年基金,沸石成型催化剂内多级孔道结构与传质-反应过程的离散建模及优化研究,主持
3. 上海市科委启明星计划(A类),工业催化剂服役过程孔结构演变及传质强化,主持
4. 上海市教委晨光计划,成型沸石催化剂内传质过程建模及强化,主持
5. 上海市自然科学基金面上项目,分子筛催化剂结焦失活过程的多尺度建模及优化,主持
6. 中国博士后科学基金特别资助,甲烷干气重整成型催化剂内扩散-反应过程建模及强化,主持
7. 中国博士后科学基金一等资助,丙烷脱氢Pt系颗粒催化剂内结焦失活过程的离散建模,主持
8. 企业委托开发课题,多孔材料吸附和扩散一体式测量分析仪的开发,主持
9. 企业委托开发课题,丁烯临氢异构催化精馏技术开发,主持
10. 企业委托开发课题,基于氮气吸脱附曲线的孔道网络拓扑结构预测,主持
11. 企业委托开发课题,XXXX混合碳四氢甲酰化制高碳醇反应器建模,核心骨干
12. 企业委托开发课题,16万吨/年氧化法环己酮工艺包开发及关键设备工程放大研究,核心骨干
13. 企业委托开发课题,高沸物氯化反应器和反应工艺开发与运行优化研究,核心骨干
14. 企业委托开发课题,三氟乙酸氧化反应器设计开发研究,核心骨干
15. 企业委托开发课题,高温烟气二氧化碳捕集与原位转化,核心骨干
16. 企业委托开发课题,湿法刻蚀反应器优化和工艺研发与应用,核心骨干
【代表性论文】
发表研究论文50余篇,其中以第一/通讯作者在AIChE J.、Angew. Chem.等期刊上发表研究论文34篇,代表性论文所列如下:
1. Shen Hu, Jiaxuan Chen, Qunfeng Zhang, Junru Liu, Jinlin Meng, Guanghua Ye*, Xinggui Zhou*, Weikang Yuan, Crystal-size–dependent external surface diffusion barriers in Pt/ZSM-5 catalyzed n-pentane isomerization, AIChE Journal, 2022, 68, e17677.
2. Junqi Weng, Qunfeng Zhang, Jiahao Yu, Qihuan Yu, Guanghua Ye*, Xinggui Zhou, Radially layered configuration for improved performance of packed bed reactors, Chemical Engineering Science, 2022, 260, 117917.
3. Qunfeng Zhang, Xinlei Liu, Shen Hu, Guanghua Ye*, Xinggui Zhou, Weikang Yuan, Optimal design of hierarchically structured ZSM-5 zeolites for n-hexane isomerization, AIChE Journal, 2021, 67(11), e17355.
4. Shen Hu, Junru Liu, Guanghua Ye*, Xinggui Zhou, Marc-Olivier Coppens*, Weikang Yuan, Effect of external surface diffusion barriers on platinum/Beta-catalyzed isomerization of n-pentane, Angewandte Chemie International Edition, 2021, 60 (26), 14394-14398.
5. Xinlei Liu, Bo Qin, Qunfeng Zhang, Guanghua Ye*, Xinggui Zhou, Weikang Yuan, Optimizing catalyst supports at single catalyst pellet and packed bed reactor levels: A comparison study, AIChE Journal, 2021, 67 (8), e17163.
6. Zhongyuan Guo, Xin Li, Shen Hu, Guanghua Ye*, Xinggui Zhou, Marc-Olivier Coppens*, Understanding the role of internal diffusion barriers in Pt/Beta zeolite catalyzed isomerization of n-heptane. Angewandte Chemie International Edition, 2020, 59 (4), 1548-1551.
7. Xinlei Liu, Chong Peng, Hongxin Bai, Qunfeng Zhang, Guanghua Ye*, Xinggui Zhou, Weikang Yuan, A pore network model for calculating pressure drop in packed beds of arbitrary‐shaped particles, AIChE Journal, 2020, 66 (9), e16258.
8. Xinlei Liu, Qunfeng Zhang, Guanghua Ye*, Jinjin Li, Ping Li, Xinggui Zhou, Frerich J. Keil, Deactivation and regeneration of Claus catalyst particles unraveled by pore network model, Chemical Engineering Science, 2020, 211, 115305.
9. Guanghua Ye, Haizhi Wang, Xinggui Zhou*, Frerich, J. Keil*, Marc-Olivier Coppens*, Weikang Yuan, Optimizing catalyst pore network structure in the presence of deactivation by coking, AIChE Journal, 2019, 65, e16687.
10. Guanghua Ye, Haizhi Wang, Xuezhi Duan, Zhijun Sui, Xinggui Zhou*, Marc-Olivier Coppens*, Weikang Yuan, Pore network modeling of catalyst deactivation by coking, from single site to particle, during propane dehydrogenation, AIChE Journal, 2019, 65, 140-150.
11. Xinlei Liu, Hailang Wang, Guanghua Ye*, Xinggui Zhou*, Frerich J. Keil. Enhanced performance of catalyst pellets for methane dry reforming by engineering pore network structure, Chemical Engineering Journal, 2019, 373, 1389-1396.
12. Guanghua Ye, Yuanyuan Sun, Zhongyuan Guo, Kake Zhu, Honglai Liu, Xinggui Zhou*, Marc-Olivier Coppens*, Effects of zeolite particle size and internal grain boundaries on Pt/Beta catalyzed isomerization of n-pentane, Journal of Catalysis, 2018, 360, 152-159.
13. Guanghua Ye, Xinggui Zhou*, Marc-Olivier Coppens*, Jinghong Zhou, Weikang Yuan, Influence of catalyst pore network structure on the hysteresis of multiphase reactions, AIChE Journal, 2017, 63, 78-86.
14. Guanghua Ye, Yuanyuan Sun, Xinggui Zhou*, Kake Zhu, Jinghong Zhou, Marc-Olivier Coppens*, Method for generating pore networks in porous particles of arbitrary shape, and its application to catalytic hydrogenation of benzene, Chemical Engineering Journal, 2017, 329, 56-65.
15. Guanghua Ye, Xinggui Zhou*, Marc-Olivier Coppens*, Weikang Yuan, Probing pore blocking effects on multiphase reactions within porous catalyst particles using a discrete model, AIChE Journal, 2016, 62, 451-460.
16. Guanghua Ye, Xuezhi Duan, Kake Zhu, Xinggui Zhou*, Marc-Olivier Coppens, Weikang Yuan, Optimizing spatial pore-size and porosity distributions of adsorbents for enhanced adsorption and desorption performance, Chemical Engineering Science, 2015, 132, 108-117.