汤婷婷
一、基本信息
汤婷婷,博士,副研究员,硕士生导师。主要从事流-固-热耦合智能优化、环境感知与流场适应、流固耦合与数字孪生等基础研究工作,应用领域包括但不限于芯片封装热管理、低空飞行稳定性、仿生漩涡传感器等。主持国家级自然科学基金1项,参与多项纵横向课题,具备工业界实践经验。发表高水平SCI学术论文20余篇,申请专利10余项。欢迎对流体力学、热力学、固体力学、能源动力工程、航空航天工程以及机械工程等领域有浓厚兴趣的学生加入团队,共同开启科研创新之旅。
二、研究方向
流-固-热耦合智能优化:流-固-热多物理场耦合建模,结合智能算法对复杂结构进行多目标和超多目标优化设计。
环境感知与流场适应:实时获取环境信息,结合物理增强数据驱动模型,预测气动性能,通过动态调整运动或结构,优化性能(如稳定性)。
流-固耦合与数字孪生:流固耦合力学建模,耦合算法数值求解,结合实时数据(流场和结构响应)驱动,预测临界状态(如疲劳损伤),触发预警和调控。
三、教育经历
2011.08-2017.05,美国肯塔基大学,机械工程系,博士;
2007.09-2011.07, 中南大学,能源科学与工程学院,热能与动力工程专业,学士。
四、工作经历
2017.06至2019.08,南方科技大学,力学与航空航天工程系,博士后;
2019.09至2021.12,南方科技大学,力学与航空航天工程系,研究助理教授;
2021.12至2025.01,华为技术有限公司,高级工程师;
2025.01至今,东莞理工学院,生态环境与建筑工程学院-国际空天技术研究院,副研究员。
五、科研/教研项目
1.国家自然科学基金委员会,青年基金项目,晶须阵列传感器水下尾涡探测的数值模拟及机理研究,2021-1-1至2023-12-31,结题,主持;
2.国家自然科学基金委员会, 面上项目, 多孔翼型扑翼飞行的计算流体动力学模拟及机理研究, 2022-01-01 至 2025-12-31, 在研, 参与
3.国家自然科学基金委员会,面上项目,一种模拟热力作用下流体绕过和通过多孔介质钝体流动的浸没边界法,2017-1-1至2020-12-31,结题,参与
六、科研成果
1.论文
[1] Tingting Tang**, Zhiyong Li**, Shimin Yu, Jianhui Li, Peng Yu*, Opposing buoyancy mixed convection through and around arrays of heated cylinders, Journal of Fluid Mechanics, 2022, 949: A8.
[2] Tingting Tang, Jin Xie, Shimin Yu, Jianhui Li, and Peng Yu*. "Effect of aspect ratio on flow through and around a porous disk." Physical Review Fluids, 2021, 6, no. 7: 074101.
[3] Tingting Tang, Peng Yu*, Xiaowen Shan, Huisu Chen, The connection between pore-scale and macroscopic flow characteristics of recirculating wake behind a porous cylinder, Physics of Fluids, 2020, 32(8): 083606.
[4] Tingting Tang, Peng Yu*, Xiaowen Shan, Jianhui Li, Shimin Yu, On the transition behavior of laminar flow through and around a multi-cylinder array, Physics of Fluids, 2020, 32(1): 013601. (Editors’ pick)
[5] Tingting Tang, Peng Yu*, Xiaowen Shan, Huisu Chen, The formation mechanism of recirculating wake for steady flow through and around arrays of cylinders, Physics of Fluids 2019, 31(4): 043607. (Editors’ pick)
[6] Tingting Tang, Peng Yu*, Xiaowen Shan, Huisu Chen, Jian Su, Investigation of drag properties for flow through and around square arrays of cylinders at low Reynolds numbers." Chemical Engineering Science, 2019, 199: 285-301.
[7] Tingting Tang*, Zhiyong Li, James M. McDonough, and Peter D. Hislop. "Numerical investigation of the “poor man’s Navier–Stokes equations” with Darcy and Forchheimer terms." International Journal of Bifurcation and Chaos, 2016, 26(5): 1650086.
[8] Tingting Tang*, J. M. McDonough, A theoretical model for the porosity–permeability relationship, International Journal of Heat and Mass Transfer, 2016, 103: 984-996.
[9] Chengcheng Huang, Weijie Li, Sai Peng, Tingting Tang*, Peng Yu*, Numerical study of wake-induced vibration of bionic whisker at low mass ratio and Reynolds number, Ocean Engineering, 2025
[10] Zhiyong Li**, Tingting Tang**, Yu Liu*, Elias Arcondoulis, Yannian Yang, Numerical study of aerodynamic and aeroacoustic characteristics of flow over porous coated cylinders: Effects of porous properties, Aerospace Science and Technology, 2020, 105:106042.
[11] Tao Huang, Hao Yu, Tingting Tang, Haibo Zhao, Chengyao Zhang, Qiyu Deng, Peng Yu*, Sedimentation of circular particles with different sizes in a vertical channel at low Reynolds numbers, Physics of Fluids, 2024
[12] Jianhui Li, Tingting Tang, Shimin Yu, Peng Yu*, A machine learning based method to generate random packed isotropic porous media with desired porosity and permeability, Advances in Water Resources, 2024
[13] Sai Peng, Tingting Tang, Jianhui Li, Mengqi Zhang, Peng Yu*, Numerical study of viscoelastic upstream instability, Journal of Fluid Mechanics, 2023, 959, A16.
[14] Shimin Yu, Tingting Tang, Ting Chen, Jiayu Li, Peng Yu*, Effect of the free-stream orientation on mixed convective flow past a porous cylinder, International Journal of Thermal Sciences, 2022, 171: 107197.
[15] Shimin Yu, Tingting Tang, Jianhui Li, Peng Yu*, Wake and thermal characteristics for cross-buoyancy mixed convection around and through a porous cylinder, Physics of Fluids, 2020, 32:073603. (Editors’ pick)
[16] Shimin Yu, Tingting Tang, Jianhui Li, Peng Yu*, Effect of Prandtl Number on Mixed Convective Heat Transfer from a Porous Cylinder in the Steady Flow Regime, Entropy, 2020, 22(2): 184.
[17] Jian Su, Tingting Tang, Ruixin Lu, Peng Yu*, Thermal Lagging of Multi-layered Structure in Heat-assisted Magnetic Recording Systems, Journal of Thermal Science and Engineering Applications, 2020, 12(3): 031022.
[18] Zhiyong Li, Tingting Tang, Yu Liu*, Elias JG Arcondoulis, Yannian Yang, Implementation of compressible porous-fluid coupling method in an aerodynamics and aeroacoustics code–Part II: Turbulent flow, Applied Mathematics and Computation, 2020, 373: 124988.
[19] Xiaoyang Xu, Tingting Tang, Peng Yu*, A modified SPH method to model the coalescence of colliding non‐Newtonian liquid droplets, International Journal for Numerical Methods in Fluids, 2020, 92(5): 372-390.
[20] Sunil Chamoli, Tingting Tang, Peng Yu*, Ruixin Lu, Effect of shape modification on heat transfer and drag for fluid flow past a cam-shaped cylinder, International Journal of Heat and Mass Transfer, 2019, 131: 1147-1163.
[21] Shimin Yu, Peng Yu*, Tingting Tang, Effect of thermal buoyancy on flow and heat transfer around a permeable circular cylinder with internal heat generation, International Journal of Heat and Mass Transfer, 2018, 126: 1143-1163.
2.专利/软著
(1) 汤婷婷,洪芳军,李霁阳等,一种复合高导热材料的半导体功率模组结构,202411516014.9
(2) 汤婷婷,李霁阳,洪芳军等,一种高功率模组并联散热器结构,202410969997.5
(3) 汤婷婷,李霁阳,洪芳军等,一种高功率模组串联散热器结构,202410926779.3
(4) 汤婷婷,王广平,洪芳军等,一种集成VC的功率模组冷却结构,202311834489.8
(5) 汤婷婷,李霁阳,张伟龙,带液冷散热器的功率模组、电机控制器、动力总成及车辆,CN117156807A
(6) 汤婷婷,李霁阳,刘红兵等,一种液冷散热装置、电机控制器、动力总成及电动车辆, CN116437634A
(7) 汤婷婷,李霁阳,张伟龙,散热装置、功率模组、电源系统、车辆及光伏系统,CN220274101U
(8) 汤婷婷,李霁阳,刘红兵等,一种液冷散热器、功率装置和电力设备, CN220191277U
七、联系方式
地址:广东省东莞市松山湖大学路1号东莞理工学院
邮编:523808
邮箱:wstc_ttt@live.com
