邢磊

作者: 时间:2019-09-04 点击数:



职称

研究员

邮箱

xinglei@ujs.edu.cn;   xinglei1314@gmail.com

研究方向

质子交换膜燃料电池数值模拟与优化设计;二氧化碳捕集反应器的设计;新型可见光响应光催化剂的制备及在污染物治理方面应用;微颗粒包覆活性物质可控释放及力学性能分析。


个人履历

邢磊,男,工学博士,青年特聘教授,硕士生导师。2014年于英国纽卡斯尔大学(Newcastle University)获得博士学位,师从国际著名电化学工程专家Keith Scott2014-2016年在英国伯明翰大学(University of Birmingham)从事博士后研究,师从英国皇家工程院院士Prof. Zhibing Zhang。现就职于江苏大学绿色化学与化工技术研究院。主要研究方向包括:质子交换膜燃料电池数值模拟与优化设计;二氧化碳捕集反应器的设计;新型光催化剂制备及在污染物治理方面应用;微颗粒包覆活性物质可控释放及力学性能分析。在AIChE Journal, Chemical Engineering Science, Energy, Applied Energy, International Journal of Hydrogen Energy, Journal of Power Sources, Applied Catalysis B: Environmental 等杂志发表相关研究论文38篇,出版英文专著1部,著作章节2章。

教育经历

2010/09-2014/06,纽卡斯尔大学(英国),化学工程与新材料学院,博士;

2005/09-2008/07,太原理工大学,化学化工学院,硕士;

2001/09-2005/07,内蒙古工业大学,化工学院,学士。

工作经历

2018/08 - 至今, 江苏大学绿色化学与化工技术研究院,研究员

2017/09-2018/08, 牛津大学(英国),工程学院,访问学者

2016/09-2018/07,江苏大学绿色化学与化工技术研究院,青年特聘教授;

2014/10-2016/09,伯明翰大学(英国),化工学院,博士后研究员;

2008/09-2010/07,内蒙古工业大学,化工学院,讲师。

研究方向

1. 质子交换膜燃料电池数值模拟与优化设计;

2. 二氧化碳捕集反应器的设计;

3. 新型可见光响应光催化剂的制备及在污染物治理方面应用;

4. 微颗粒包覆活性物质可控释放及力学性能分析。

承担项目

1. 质子交换膜燃料电池多孔电极内三项界面构筑/调控机制与功能组分的梯度化设计,No. 21978118,国家自然科学学基金,面上项目65万元,2020.01 - 2023.12主持

2. 基于多尺度模型的碳基三维多孔电极内三相界面构筑机制研究,No. BK20170530,江苏省自然科学基金,青年基金项目 20万元,2017.07 - 2020.06主持

3. 基于多尺度-多物理场-两相流模型的质子交换膜燃料电池多孔电极数值模拟与优化设计,江苏省双创博士基金15万元,2017.01 - 2019.12主持

4. 质子交换膜燃料电池新型梯度化膜电极设计与优化,江苏大学高级人才科研启动基金,10万元,2017.01 - 2019.12主持

5. 多元过渡金属磷化物/氮化碳光催化剂的构筑及其分解水制氢性能研究,No. 21878129, 国家自然科学学基金,面上项目66万元,2019.01 - 2022.12,参加;

6. TiO2/天然矿物复合光催化剂的制备规律及可见光响应机理,No. 20966006,国家自然科学基金,面上项目27万元,2010.01 - 2012.12,参加。

科技专著 Book and chapter

1. Lei Xing, Keith Scott. Modelling of Low Temperature Proton Exchange Membrane Fuel Cells. LAP LAMBERT Academic Publishing, Germany: 2016, (ISBN: 9783659891953).

2. Lei Xing, Chapter 6: Fuel cells. In: Weidong Shi editor. Novel chemical technologies based on new energy. Jilin University Press, China: 2018, (ISBN: 9787569224184). (in Chinese)

3. Keith Scott, Lei Xing. Chapter 3: Direct Methanol Fuel Cell. In: K. Sundmacher editor. Advances in Chemical Engineering, Fuel Cell Engineering, Elsevier Inc, USA: 2012, (ISBN: 9780123868749).

学术论文 (Journal papers)

  1. Lei Xing*, W. Shi*, P.K. Das, Q. Xu, H. Su, K. Scott*. Membrane electrode assemblies for PEM fuel cells: A review on functional graded design and optimization. Energy, 2019, 177: 445-464.

  2. Lei Xing, Y. Xu, P.K. Das, B. Mao, Q. Xu, H. Su, W. Shi*. Numerical matching of anisotropic transport processes in porous electrodes of proton exchange membrane fuel cells. Chemical Engineering Science, 2019, 195: 127-140.

  3. Lei Xing, Y. Li, T. Li*. Local concentrating, not shear stress, that may lead to possible instability of protein molecules during syringe injection: a fluid dynamic study with two-phase flow model. PDA Journal of Pharmaceutical Science and Technology, 2019, 73: 260-275.

  4. Lei Xing*, Y. Wang, P.K. Das, K. Scott, W. Shi*. Homogenization of current density of PEM fuel cells by in-plane graded distributions of platinum loading and GDL porosity. Chemical Engineering Science, 2018, 192: 699-713.

  5. Lei Xing*. An agglomerate model for PEM fuel cells operated with non-precious carbon-based ORR catalysts. Chemical Engineering Science, 2018, 179: 198-213.

  6. Lei Xing*, P. K. Das, K. Scott, W. Shi*. Inhomogeneous spatial distribution of platinum and ionomer in porous electrode to maximize the performance of a PEM fuel cell. AIChE Journal, 2017, 63: 4895-4910.

  7. Lei Xing, B. Zhuo, S. Bakalis, J. Castro, Z. Zhang*. Coating of sodium percarbonate particels using water soluble materials in a fluidized bed to achieve delayed release in aqueous environment. Cogent Engineering, 2017, 4: 1372730.

  8. Lei Xing*, Q. Cai, X. Liu, C. Liu*, K. Scott, Y. Yan. Anode partial flooding modelling of proton exchange membrane fuel cells: optimisation of electrode properties and channel geometries. Chemical Engineering Science, 2016, 146: 88-103.

  9. Lei Xing*, S. Du, R. Chen, M. Mamlouk, K. Scott. Anode partial flooding modelling of proton exchange membrane fuel cells: Model development and validation. Energy, 2016, 96: 80-95.

  10. Lei Xing*, Q. Cai, C. Xu, C. Liu*, K. Scott, Y. Yan. Numerical study of the effect of relative humidity and stoichiometric flow ratio on PEM fuel cell performance with various channel lengths: An anode partial flooding modelling. Energy, 2016, 106: 631-645.

  11. Lei Xing, P. K. Das, X. Song*, M. Mamlouk, K. Scott. Numerical analysis of the optimum membrane/ionomer water content of PEMFCs: The interaction of NafionÒ ionomer content and cathode relative humidity. Applied Energy, 2015, 138: 242-257.

  12. Lei Xing*, X. Liu, T. Alaje, R. Kumar, M. Mamlouk, K. Scott. A two-phase flow and non-isothermal agglomerate model for a proton exchange membrane (PEM) fuel cell. Energy, 2014, 73: 618-634.

  13. Lei Xing*, M. Mamlouk, R. Kumar, K. Scott. Numerical investigation of the optimal NafionÒ ionomer content in cathode catalyst layer: An agglomerate two-phase flow modelling. Int. J. Hydrogen Energy, 2014, 39: 9087-9104.

  14. Lei Xing*, M. Mamlouk, K. Scott. A two dimensional agglomerate model for a proton exchange membrane fuel cell. Energy, 2013, 61: 196-210.

  15. Lei Xing, X. Song*, K. Scott, V. Pickert, W. Cao. Multi-variable optimisation of PEMFC cathodes based on surrogate modelling. Int. J. Hydrogen Energy, 2013, 38: 14295-14313.

  16. Lei Xing*, K. Scott, Y.-P. Sun. Transient Response and Steady-State Analysis of the Anode of Direct Methanol Fuel Cells Based on Dual-Site Kinetics. International Journal of Electrochemistry, 2011, Article ID 853261.

  17. Lei Xing, Q. Zhang*, X. Han, L. Jian, C. Fan. Effect of La, Pr, Nd doping on photocatalytic properties of nano TiO2. Journal of synthetic crystals. 2010, 39(3): 55-68 (in Chinese).

  18. Lei Xing, Y.-P. Sun*. Dual site kinetics of methanol oxidation of Pt-Ru anode. J. Taiyuan Univ. Tech., 2009. 40 (1): 28-31 (in Chinese).

  19. X. Chen, W. Cao*, Lei Xing*. GA optimization method for a multi-vector energy system incorporating wind, hydrogen, and fuel cells for rural village applications. Applied Sciences, 2019, 9, 3554.

  20. J. Liu, L. Han, N. An, Lei Xing*, H. Ma, L. Cheng*, J. Yang, Q. Zhang*. Enhanced visible-light photocatalytic activity of carbon-doped anatase TiO2 based on the electron-withdrawing bidentate carboxylate linkage. Applied Catalysis B: Environmental, 2017, 202: 642-652.

  21. Z. Liu, H. Ma, J. Liu, Lei Xing*, L. Cheng, J. Yang, B. Mao, Q. Zhang*. A low-cost clay based heterogeneous Fenton-like catalyst: activation, efficiency enhancement and mechanism study. Asia-Pacific Journal of Chemical Engineering, 2017, e2156.

  22. Z. Liu, H. Ma, Lei Xing*, J. Liu, Q. Zhang*, L. Cheng, J. Yang. Sulfated Ce doped TiO2 as visible light driven photocatalyst: preparation, characterization and photocatalytic performance. Environmental Progress and Sustainable Energy, 2017, 36: 494-504.

  23. L. Guo, L. Xiang, F. Li, X. Liu, Lei Xing, D. Li, Z. Luo, K. Luo*. Silver nanoparticle/multi-walled carbon nanotube hybrid as an effective electrocatalyst for oxygen reduction reaction in alkaline medium. ChemElectroChem. 2019, 6: 2489-2496.

  24. Y. Wang*, C. Liu, J. Xiang, Lei Xing, X. Ou, S. Chen. Electrocatalytic oxidation of methoanl on nickel doped metal organic frameworks MIL-110 modified glassy carbon electrode in alkaline medium. Int. J. Electrochem. Sci. 2019, 14: 5247-5258.

  25. Y. Yang, B. Mao*, G. Gong, D. Li, Y. Liu, W. Cao, Lei Xing, J. Zeng, W. Shi*, S. Yuan. In-situ growth of Zn–AgIn5S8 quantum dots on g-C3N4 towards 0D/2D heterostructured photocatalysts with enhanced hydrogen production. International Journal of Hydrogen Energy, 2019, 44: 15882-15891.

  26. Z. Liu, X. Bao, Lei Xing, J. Yang, Q. Zhang*. Template-free sol-hydrothermal synthesis of a nitrogen doped anatase/rutile/brookite TiO2 nano-rod bundle for visible light driven photocatalysis. Journal of Rare Metal Materials and Engineering, 2019, 48: 0077-0084.

  27. K. Zhang, Y. Liu, B. Wang, F. Yu, Y. Yang, Lei Xing, J. Hao, J. Zeng, B. Mao*, W. Shi*, S. Yuan. Three-dimensional interconnected MoS2 nanosheets on industrial 316L stainless steel mesh as an efficient hydrogen evolution electrode. International Journal of Hydrogen Energy, 2019, 44: 1555-1564.

  28. X. Gao, C. Ma, Y. Liu, Lei Xing, Y. Yan*. Self-induced Fenton reaction constructed by Fe(III) grafted BiVO4 nanosheets with improved photocatalytic performance and mechanism insight. Applied Surface Science, 2019, 467-468: 673-683.

  29. D. Yao, T.-C. Jao, W. Zhang, L. Xu, Lei Xing, Q. Ma, Q. Xu, H. Li, S. Pasupathi, H. Su*. In-situ diagnosis on performance degradation of high temperature polymer electrolyte membrane fuel cell by examining its electrochemical properties under operation. International Journal of Hydrogen Energy, 2018, 43: 21006 - 21016.

  30. Q. Xu*, Q. Ma, W. Zhang, F. Qiao, Lei Xing, H. Su*. Redox flow batteries applied for a green future – In the perspective of heat and mass transfer. 2018. PiscoMed Publishing, Singapore.

  31. Q. Xu*, J. Zhao, Lei Xing, H. Su, H. Li. Effect of air supply on the performance of an active DMFC fed with neat methanol. International Journal of Green Energy, 2018, 15: 181-188.

  32. Y. Gu, S. Yuan, J. Pei, Lei Xing, C. Stephen, F. Zhang, Y. Liu. Effects of blade thickness on hydraulic performance and structural dynamic characteristics of high-power coolant pump at overload condition. Journal of Power and Energy, 2018, 232: 992-1003.

  33. Q. Li, D. Huang, T. Lu, J. P. K. Seville, Lei Xing, G. A. Leeke*. Supercritical fluid coating of API on MCC changes drug release profile. Chemical Engineering Journal, 2017, 313: 317-327.

  34. Y. Deng, G. Wang, M. Fei, X. Huang, J. Cheng, X. Liu, Lei Xing, K. Scott, C. Xu*. A polybenzimidazole/graphene oxide based three layer membranes for intermediate temperature polymer electrolyte membrane fuel cells. RSC Advances, 2016, 6: 72224-72229.

  35. Y. Wang, J. Hu, L. Wang, D. Shan, X. Wang*, Y. Zhang, X. Mao, Lei Xing, D. Wang. Acclimated sediment microbial fuel cells from a eutrophic lake for the in situ denitrification process. RSC Advances, 2016, 6: 80079-80085.

  36. Y.-C. Cao*, C. Xu, X. Wu, X. Wang, Lei Xing, K. Scott. A poly (ethylene oxide)/grapheme oxide electrolyte membrane for low temperature polymer fuel cells. J. Power Sources, 2011, 196: 8377-8382.

  37. Y.-P. Sun*, Lei Xing, K. Scott. Analysis of kinetics of methanol oxidation in a porous Pt-Ru anode. J. Power Sources, 2010, 195: 1-10.

  38. Y.-P. Sun*, Lei Xing. Modelling of macro kinetics of methanol oxidation in porous Pt-Ru anode for DMFC. CIESC Journal, 2009, 60 (1): 55-68 (in Chinese).

    会议论文 (Conference papers)

  39. B. Ji, V. Pickert, W. Cao, Lei Xing. Onboard condition monitoring of solder fatigue in IGBT power modules. Proceedings-2013 9th IEEE International Symposium on Diagnostics for Electric Machines, Power Electronics and Drives, SDEMPED 2013, 9-15. (art. no. 6645690).

  40. Lei Xing, M. Mamlouk, K. Scott. A parametric study of the cathode catalyst layer composition based on a two-dimensional two-phase flow agglomerate model. EFC 2013 – Proceedings of the 5th European Fuel Cell Piero Lunghi Conference, 69-70.

    Biography

    Prof. Lei Xing finished the EPSRC funded program and got his PhD degree at Newcastle University in the UK in 2014, supervised by Prof. Keith Scott in the school of Chemical Engineering and Advanced Materials. The title of his PhD thesis was “Modelling and simulation of the laboratory low temperature proton exchange membrane fuel cell and direct methanol fuel cell”. After that, he was employed as a postdoc research fellow at University of Birmingham between Oct. 2014 to Sep. 2016, involved in a TSB project and collaborated with P&G. His work was to develop a novel coating process using water soluble materials to improve the physical and chemical stability, as well as the controlled release, of soft and cohesive powder. Before he came to the UK, he spent 3 years between Sep. 2005 to Jul. 2008 for his MEng degree in Taiyuan University of Technology in China, supervised by Prof. Yanping Sun and accomplished the thesis entitled “Modelling the macro-kinetics of methanol oxidation in a porous Pt-Ru anode of DMFCs”. Between Sep. 2008 to Jul. 2010, he was a lecturer in Inner Mongolia University of Technology, delivered two courses at the undergraduate level. On July 2016, Lei Xing joined Jiangsu University as a young professor, working at Institute of Green Chemistry and Chemical Technology.

    Until now, Prof. Xing got more than 7 years’ working experience in academia. Delivered 3 courses, published 38 journal papers, 1 book and 2 book chapter, 2 conference papers, several times oral presentation in international conference. His main research interests include 1). Proton exchange membrane fuel cell modelling and optimization; 2). Chemical process and rector design for CO2 capture 3). Novel photocatalyst preparation and application in wastewater and gas treatment, and 4). Coating of functional powders to control their release and improve their chemical and physical stability. Prof. Xing is the PI for the start-up funding for young researchers of Jiangsu University (100,000) and the Innovation and Creation programme of Jiangsu Province in China (150,000), and a PI for National Natural Science Foundation of China (Project No. 21978118, 660,000), and a CoI for National Natural Science Foundation of China a CoI for a National Natural Science Foundation of China (Project No. 21878129, 660,000, No. 20966006, 270,000).



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