科研队伍
  • 姓名: 杨丰畅
  • 性别: 男
  • 职称: 副研究员
  • 学历: 
  • 电话: 010-6256 1284
  • 传真: 
  • 电子邮件: yangfengchang@imech.ac.cn
  • 通讯地址 北京市海淀区北四环西路15号

    简历:

  • 2021/09-至今     百人计划研究员,中国科学院力学研究所 CAS-IMECH

    2019/11-2021/09  博士后,橡树岭国家实验室 Oak Ridge National Lab (ORNL)

    2017/07-2019/10  研究员,JENSEN HUGHES安全科学公司

    2013/08-2017/07  博士,机械工程,美国弗吉尼亚理工

    2010/09-2013/03  硕士,热能工程,东华大学

    2006/09-2010/07  学士,暖通工程,辽宁工业大学

    研究领域:

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    主要关注多物理CFD数值模拟软件开发及相关微纳尺度流体系统应用,主要研究方向为:

     

    微纳流活性颗粒动力学及数值模拟

    活性颗粒运动的多物理场模拟;活性颗粒气泡推进机理研究;外部物理场对活性颗粒运动的影响

     

    微纳尺度孔隙反应流及相变现象:

    孔隙反应流中的矿物结晶过程;相变过程导致孔隙堵塞的机理研究;微流控系统中蛋白质相分离过程

     

    新型电池的开发及应用:

    Li-SNa-S电池离子输运及电化学反应数值模拟;电池热失控及火灾预防

     

    欢迎力学、物理、数学、化工等专业的研究生、博士后联系和报考!表现优异者将推荐至本人海外合作者处攻读博士或相关计算软件公司(Mathworks, Convergent)工作

    社会任职:

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    中国力学学会会员美国化学学会(ACS)会员

    担任多个国际期刊审稿人,其中包括Physics of Fluids, Journal of Fluids Engineering, Journal of Thermal Science, Journal of Thermal Science and Engineering Applications, Micromachines, etc.

    获奖及荣誉:

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    代表论著:

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    1.      F.C. Yang, K. Yuan, A.G. Stack, V. Starchenko, Numerical Study of Mineral Nucleation and Growth on a Substrate, ACS Earth & Space Chemistry, 2022, accepted

    2.      F.C. Yang, A.G. Stack, V. Starchenko, Micro-continuum Approach to Mineral Precipitation, Scientific Reports, 2021, 11, 1-14

    3.      H.H. Yang, Y.P. Chen, Y.W. Wu, F.C. Yang, X.Y. Huang, Y. Xu, W.L. Duan, Thermo-fluidic characteristics and performance in a distribute heating bubble pump generator, Int. J. of Refrigeration, 2021, in press

    4.      K. Yuan, V. Starchenko, N. Rampal, F.C. Yang, X.G. Yang, X.H. Xiao, W.K. Lee, and A.G. Stack, Opposing Effects of Impurity Ion Sr2+ on the Heterogeneous Nucleation and Growth of Barite (BaSO4), Crystal Growth & Design, 2021, 21, 5828-5839

    5.      F.C. Yang, C. Rippe, J. Hodges, B. Lattimer, Methodology for Material Property Determination, Fire and Materials, 2019, 43, 694-706

    6.      F.C. Yang, S.M.A Mousavie, T.K. Oh, T.R. Yang, Y.Q. Lu, C. Farley, R.J. Bodnar, L. Niu, R. Qiao, Z. Li, Sodium–Sulfur Flow Battery for Low‐Cost Electrical Storage, Adv. Energy Mater., 2018, 8, 1701991

    7.      F.C. Yang, M. Manjare, Y.P. Zhao, and R. Qiao, On the Peculiar Bubble Formation, Growth, and Collapse Behaviors in Catalytic Micromotor Systems, Microfluid. Nanofluid., 2017, 21, 6

    8.      W.J. Huang, F.C. Yang (共同一作), R. Qiao and Y.P. Zhao, Manipulation of Magnetic Nanorod Clusters in Liquid by Non-Uniform Alternating Magnetic Fields, Soft Matter, 2017, 13, 3750-3759

    9.      F.C. Yang, S.Z. Qian, Y.P. Zhao, and R. Qiao, Self-Diffusiophoresis of Janus Catalytic Micromotors in Confined Geometries, Langmuir, 2016, 32, 5580–5592

    10.   M. Manjare, F.C. Yang, R. Qiao, and Y.P. Zhao, Marangoni Flow Induced Collective Motion of Catalytic Micromotors, J. Phys. Chem. C, 2015, 119, 28361–28367

    11.   Y. Song, R. Peng, D. Hensley, P.V. Bonnesen, L. Liang, J. Huang, F.C. Yang, R. Qiao, T. Tschaplinski, N. Engle, Z. Wu, H. Meyer, B. Sumpter and A. Rondinone, A Physical Catalyst for the Electrolysis of Nitrogen to Ammonia, Science Advances, 2018, 4, e1700336

    12.   E. Bearinger, J. Hodges, F.C. Yang, C. Rippe, B. Lattimer, Localized heat transfer from firebrands to surfaces, Fire Safety Journal, 2020, 103037

    13.   Z. Li, S. Zhang, W. Guo, F.C. Yang, P. Zheng and R. Qiao, Recent Progress in Polysulfide Redox Flow Batteries (PSRFBs). Batteries & Supercaps, 2019, 2, 627-637

    14.   L. Zhu, W.J. Huang, F.C. Yang, L. Yin, S.X. Liang, W.J. Zhao, L.D. Mao, X.Z. Yu, R. Qiao, Y.P. Zhao, Manipulation of Single Cells Using a Ferromagnetic Nanorod Cluster Actuated by Weak AC Magnetic Fields, Advanced Biosystems, 2019, 3, 1800246

    15.   H. Yang, J. Wang, N. Wang, F.C. Yang, Experimental study on a pulsating heat pipe heat exchanger for energy saving in air-conditioning system in summer, Energy and Buildings, 2019, 197, 1-6

    16.   Z. Yu, F.C. Yang, S. Dai and R. Qiao, Structure and Dynamics of Polymeric Canopies in Nanoscale Ionic Materials: An Electrical Double Layer Perspective, Scientific Reports, 2018, 8, 5191

    17.   F. Zhang, F.C. Yang, J.S. Huang, B.G. Sumpter, and R. Qiao, Thermodynamics and Kinetics of Gas Storage in Porous Liquids, J. Phys. Chem. B2016, 120, 7195–7200

    18.   W.L. Zhang, F.C. Yang, R. Qiao, and D. Boroyevich, Integrated Microchannel Cooling for Power Electronic Modules, CICMT, 2016, 122-129

    政府研究报告

    § Predicting Fully-Developed Passenger Rail Car Fire Heat Release Rate, 美国交通部研究报告, 2020 美国交通部.

    承担科研项目情况:

  • 项目主持 (PI & Co-PI)

    1. 中科院百人计划, 微纳流体输运现象及动力学分析, 2021-2024, 400

    2.  Co-PI, 野火燃烧颗粒导致的表面引燃条件和测量方法的研究 (Firebrand Material Ignition Conditions and Assessment Method Development), 美国国家标准技术研究所(NIST), 美国商务部, $492,596

     

    项目参与

    1.  Researcher, 火灾模拟相关材料物性参数的确定方法 (Determination of Material Property Input Data for Fire Modeling), 美国司法研究所(NIJ), $548,877

    2.  Researcher, 预测列车车厢火灾的热释放率 (Predicting Fully-Developed Railcar Fire Heat Release Rate), 美国联邦铁路管理局(FRA), $450,000 per year

    3.  Researcher, 催化驱动的自泳动微颗粒在紧密环境中的动力学研究 (Kinetics of Autonomous Catalytic Nanomotors in Confined and Crowded Environments), 美国科学基金会(NSF), $192,852

    4.  Researcher, 微乳液体沸腾特性的基础研究:多相流界面传热特性 (Fundamentals of Microemulsion Boiling: from Interfacial Thermodynamics to Multiphase Heat Transfer), 美国科学基金会(NSF), $125,432

    5.  Researcher, 应用非均匀AC磁场操纵单微颗粒的方法研究 (Precise and Dexterous Single-Particle Manipulation Using Non-uniform AC Magnetic Fields), 美国科学基金会(NSF), $214,390

    6.  Researcher, 页岩气回收过程中的纳米流体基础研究 (Nanofluidics Foundation for Shale Gas Recovery), 美国科学基金会(NSF), $305,724