杨雷，中国科学院过程工程研究所项目研究员、博士生导师。2013年在过程工程研究所获硕士学位，2017年博士毕业于荷兰埃因霍温理工大学（合作导师世界著名流态化专家prof. J.A.M. Kuipers）。2017年5月至2018年6月在博士期间课题组从事博士后工作，开展多相流体系内相界面传质研究；2018年7月至2022年1月在德国埃尔朗根-纽伦堡可再生能源研究所做第二站博士后，开展生物质燃烧相关研究。2022年，获中国科学院过程工程研究所“相关人才计划”项目，开展多相流反应器的基础研究及工程放大，研究领域包括多相流、流态化、固体燃料（生物质、固废等）燃烧及气化等复杂体系的实验和模拟研究。主持中国科学院人才项目、国家自然科学基金青年基金、中国科学院战略性先导专项课题子任务、多项企业横向；作为主要完成人参与欧洲研究委员会ERC高级资助项目、德国科学基金DFG、科技部重点研发项目等；申请国家专利4项，授权2项；在AIChE J、Chemical Engineering Science、Powder Technology等国际权威期刊发表论文15余篇。多次受邀参加国内外学术会议并作报告，获得2023年“诺维信优秀青年学者”，2024年第四届全国过程模拟与仿真学术会议“优秀口头报告奖”。

1.Zhuojun Jiang, Shuyao Xiong, Nouria Fatah, Chao Yang, Lei Yang*. Novel concept for 3D-printed, baffled micro-fluidized beds for the regulation of bubble behavior and the suppression of solid back-mixing: Experiments and simulations. Chemical Engineering Science, 299, 1204905, 2024.

2.Lei Yang, Marcello Sega, Steffen Leimbach, Sebastian Kolb, Jürgen Karl, Jens Harting. Capillary interactions, aggregate formation and the rheology of particle-laden flows: a lattice Boltzmann study，Industrial & Engineering Chemistry Research, 61(4), 1863-1870， 2022.

3.Leimbach, S., Lukas, J., Kolb, S., Yang, L., Plankenbühler, T., Sega, M. & Karl, J.  Early Detection of Agglomeration in Fluidized Beds by Means of Frequency Analysis of Pressure Fluctuations. Energy & Fuels, 36(9), 4924-4932, 2022.

4.Lei Yang, M. Sega, J. Harting. Capillary-bridge Forces Between Solid Particles: Insights from Lattice Boltzmann Simulations. AIChE Journal, e17350, 2021.

5.Lei Yang, M.W. Baltussen, E.A.J.F. Peters, L. Fries, Y. Harshe, J.A.M. Kuipers. Direct numerical simulation of mass transfer and mixing in complex two-phase systems using a coupled volume of fluid and immersed boundary method. Chemical Engineering Science: X, 5 (2020): 100059. 

6.Lei Yang, J.T. Padding, and J.A.M. Kuipers. Two-fluid modelling for cylindrical fluidized beds using kinetic theory for rough spheres. Particuology, 5, 25-34, 2020.

7.Lei Yang, J.T. Padding, and J.A.M. Kuipers. Partial slip boundary conditions for collisional granular flows at flat frictional walls. AIChE Journal, 63(6), 1853-1871, 2017. 

8.Lei Yang, J.T. Padding, and J.A.M. Kuipers. Investigation of collisional parameters for rough spheres in fluidized beds. Powder Technology, 316, 256-264, 2017.

9.Lei Yang, J.T. Padding, and J.A.M. Kuipers. Three-dimensional fluidized beds with rough spheres: validation of a two fluid model by magnetic particle tracking and discrete particle simulations. Chemical Engineering Science, 174, 238-258, 2017.

10.Lei Yang, J.T. Padding, and J.A.M. Kuipers. Modification of kinetic theory for frictional spheres, part I: Two-fluid model derivation and numerical implementation. Chemical Engineering Science, 152, 767-782, 2016. 

11.Lei Yang, J.T. Padding, and J.A.M. Kuipers. Modification of kinetic theory of granular flow for frictional spheres, part II: Model validation. Chemical Engineering Science, 152, 783-794, 2016.