国 籍

中国

学 位

博士

所学专业

材料加工工程

毕业院校

南昌大学

职 称

教授

职称类别

三级教授

导师类别

博导：机械工程

硕导：动力工程及工程热物理

电子邮件

yzhan@ncu.edu.cn

所在单位

南昌大学先进制造学院能源与动力工程系

个人信息

南昌大学先进制造学院能源与动力工程系教授、博导、系主任。获得2023年度江西省自然科学奖二等奖、2022年度江西省教学成果奖二等奖、2019年度江西省百千万人才，2015年度江西省百人远航工程人选，2013年度江苏省双创人才。中国内燃机学会理事。主要研究领域为：有色金属半固态加工技术，材料凝固过程的传热传质机理、新型热管强化换热和微尺度传热机理研究、多孔介质内热流场介观分析研究、超临界二氧化碳驱替研究、热管换热器在电厂节能减排中的应用、微通道内热流耦合传热传质机理研究、复杂热流场多相流介观尺度数值模拟与实验研究、血液动力学、呼吸道气流输运机理等方面。主持国家自然科学基金五项，省科技厅自然科学基金两项，国家“十一五”科技支撑计划一项，国家科研院所基金一项，其他横向项目8项，发表论文200余篇，其中SCI和EI检索60篇，申报国家发明专利60项，其中授权14项，

教育经历

工作履历

科研项目

[1].基于物理信息DeepONet神经网络及多孔介质孔隙尺度建模的多相流动力学研究，国家自然科学基金12372246，2024.1-2027.12，直接经费52万元，主持，在研。

[2]基于机器学习的复杂多相界面演化FT-LB耦合建模及动力学特性研究，国家自然科学基金52166009，2022.1-2025.12，直接经费35万元，主持，在研。
[3].2*1000W服务器芯片两相传热传质机理及优化研究，杭州衡鼎科技有限公司，横向课题，2024-2027,60万，主持，在研

[4].加热雾化过程以及气溶胶生成传输机理及流动-传热-传质多物理耦合模型开发，横向课题，2021-2023,60万，主持，在研

[5] 精密单面抛光机自动控制技术开发，横向课题，2020-2021,10万，主持，在研
[6] 毛细管内脉动两相流动的演化规律和机理研究,国家自然科学基金11562011，2016.1-2019.12，直接经费48万元，主持，已结题。

[7].镁合金半固态流变铸轧相变传热机理研究, 国家自然基金51066005,主持，25万，2011.1-2013.12，主持，已结题。

[8].基于界面追踪法的半固态镁合金凝固数值模拟，国家自然科学基金国际合作交流项目51310105027,2013.9-12，主持，已结题

[9].基于分形原理的双连续相复合材料成形过程传热传质机理研究,国家自然科学基金51566012，2016.1-2019.12，直接经费39万元，排名第二，在研。

[10].基于LBM方法的超临界CO2驱替油气过程动力学特性研究,江西省自然科学基金20181BAB206031，2018.1-2019.12, 6万元，主持，已结题。

[11].震荡热管气液两相流直接数值模拟及实验研究，江西省自然科学基金，2015.9-2016.12, 5万元，主持，已结题。

[12].基于Front Tracking方法的气液两相流直接数值模拟，2015-2016，江西省远航工程， 经费4.2 万，主持，已结题。

科研成果

[1] Peisheng Li, Hongsheng Zhou, Zhaoqing Ke, Shuting Zhao, Ying Zhang*, Jiansheng Liu*, Yuan Tian*,A Coupled Machine Learning and Lattice Boltzmann Method Approach for Immiscible Two-Phase Flows[J].Mathematics 2024, 12, 109.

[2] Zhaoqing Ke, Ying Zhang*, Heat transfer enhancement in a rectangular channel with flow-induced pitching, heaving or surging of an airfoil[J]. International Communications in Heat and Mass Transfer, 2023 (142) 106657

[3] Ying Zhang,Yu Mao,Yuan Tian,Yichen Huang,Jiansheng Liu,Zhaoqing Ke*,Effects of continuous wettability on the pool-boiling bubble dynamics and heat transfer characteristics of a triangular structure-roughened surface[J]. Physics of Fluids,2023,35:107110

[4] Ying Zhang,Ruifeng Gao,Yuwei Tu,Yichen Huang,Zhaoqing Ke*,Numerical Simulation Study of Self-driven Microdroplet on Locally Restrictive Discontinuous Wetting Gradient Surface Using Front Tracking Method[J]. Canadian Journal of Physics,2023. 101: 619–629

[5] Zhaoxuan Tang, Tingfang Yu, Zhaoqing Ke,* Bozhen Lai, Yan Gao, Ying Zhang*. Experimental investigation on boiling regime transformation when the binary-droplet impact on the superheated surface[J]. Applied Thermal Engineering, 2023, 233:121194.

[6] Yichen Huang, Zhaoqing Ke, Zhihao Li, Yan Gao, Zhaoxuan Tang, Ying Zhang. A non-uniform magnetic field coupled lattice Boltzmann model and its application on the wetting dynamics of a ferrofluid droplet under gravity effects[J]. Computers and Mathematics with Applications, 2023, 143:73-93.

[7] Zhihao Li (李志豪),Zhaoqing Ke (柯招清),Yichen Huang (黄逸宸),Wei Wu (吴伟),Ying Zhang* (张莹), Peisheng Li (李培生).Investigation of flow characteristics on porous gas diffusion layer microstructure that generated with binder and polytetrafluoroethylene distribution[J]. Physics of Fluids,2023,35, 013605.

[8] Zhihao Li (李志豪), Zhaoqing Ke (柯招清), Yichen Huang (黄逸宸), Wei Wu (吴伟), Ying Zhang* (张莹),Peisheng Li (李培生).A pore-scale reconstruction-based approach to analyze the tobacco-containing segment in electrically heated cigarettes[J].Physics of Fluids.2023,35:023602

[9] Bozhen Lai, Zhaoqing Ke, Zhiqiang Wang, Ronghua Zhu, Ruifeng Gao,Yu Mao, Ying Zhang* A Lattice Boltzmann Front-Tracking Interface Capturing Method based on Neural Network for Gas-Liquid Two-Phase Flow, International Journal of Computational Fluid Dynamics, 2023.2246398:DOI: 10.1080/10618562.

[10] Peisheng li, Qi Zeng, Ming Ma, Ying Zhang, Zhaoqing Ke,* Wei Wu.NUMERICAL STUDY OF THE PERFORMANCE OF HEAT PIPE-BASED THERMAL MANAGEMENT SYSTEM FOR POWER LITHIUM BATTERY[J]. Heat Transfer Research, 2023,54(14):63–77.

[11] Zhang, Y.; Fu, Q.; Liu, Y.; Lai, B.; Ke, Z.; Wu, W. Investigations of Lithium-Ion Battery Thermal Management System with Hybrid PCM/Liquid Cooling Plate[J]. Processes 2023, 11：57. https://doi.org/10.3390/pr11010057

[12] Ying Zhang, Peilin Lu, Xuhui Huang, Yichen Huang, Zhaoqing Ke*, Convective heat transfer in I-shape heat sink under the action of Lorentz force via LBM[J]. Numerical Heat Transfer, Part A: Applications ,2023,83(4):379-399.

[13] Yan Gao, Zhaoqing Ke, Wei Yang, Zhiqiang Wang, Ying Zhang*, Wei Wu. Coalescence-Induced Droplet Jumping on Honeycomb Bionic Superhydrophobic Surfaces[J].Langmuir. 2022, 38(32), 9981−9991

[14] Chen, Y. H., Yue, Y. F., Zhang, Y., Li, R. P., Xu, X*. Numerical Investigation of Vibration Suppression for the Combined Device of Non-Newtonian Fluids Coupled Elastic Baffle[J]. Journal of Applied Fluid Mechanics, 2023.16(3), 591-602.

[15] Lei Jie, Huang Yichen, Yang Changchuan, Xu Xuefeng, Li Zhihao, Zhang Ying*. Numerical study on heat transfer enhancement of shell-and-tube thermal energy storage unit using metal foams with non-uniform porosity[J]. International Journal of Green Energy, 2023，20（10）:1026-1039.

[16] Yichen Huang, Ming Ma, Meng Xu, Ying Zhang*, Jie Lei, Zhihao Li, Numerical study of natural convective heat transfer of nanofluids within a porous corrugated triangular cavity in the presence of a magnetic field[J]. Numerical Heat Transfer, Part A: Applications. 2022,82,(11):716-742.

[17] Huang, Y.; Tian, Y.; Ye, W.; Li, W.; Lei, J.; Zhang, Y.* Enhancing Pool Boiling Heat Transfer by Structured Surfaces- A Lattice Boltzmann Study[J]. Journal of Applied Fluid Mechanics, 2022, 15(1): 139-151.

[18] Ye, Wenlin; Bao, Jin; Lei, Jie; Huang, Yicheng; Li, Zhihao; Li, Peisheng; Zhang, Ying*. Multiphysics Modeling of Thermal Behavior of Commercial Pure Titanium Powder During Selective Laser Melting[J]. Metals and Materials International, 2022, 28(1): 282-296.

[19] Yu, Tingfang; Feng, Zhaoliang; Zhang, Ying; Xu, Xuefeng; Xu, Meng*. Numerical Study on the Thermal Performance of Microchannel Heat Sink With Composite Elliptical Pin Fin [J]. Heat Transfer Research, 2022, 53(1): 61-81.

[20] Wenbin Li, Meng Xu, Ying Zhang*, Jie Lei, Zhihao Li, Yicheng Huang, Yuan Tian*. Computational study on structures of vertical columns formed by successive droplets[J]. Journal of Materials Processing Technology. 2021,288:116903.

[21] Wenbin Li, Jiacai Lu, Gretar Tryggvason, Ying Zhang*. Numerical study of droplet motion on discontinuous wetting gradient surface with rough strip[J]. Physics of Fluids,2021,33, (1):012111.

[22] Huang, Yichen,Zhang, Ying*,Xu, Meng, Lei, Jie, Li, Zhihao, Ye, Wenlin, A numerical investigation of bubble dynamics in a ferrofluid by improved multicomponent multiphase pseudopotential lattice Boltzmann model coupled with magnetic field solver[J]. Physics of Fluids,2021,33(9):097110.

[23] Li, Peisheng,Hong, Jian;Zhang,Ying; Huang, Xuhui, Lin, Wanyi, Xu, Meng*. Effect of Waveform Channel on the Cooling Performance of Hybrid Microchannel[J].JOURNAL OF THERMOPHYSICS AND HEAT TRANSFER, 2022,36(3):520-533.

[24] Lei, Jie, Yang, Changchuan,Huang, Xuhui, Li, Zhihao, Zhang, Ying*. Solidification enhancement of phase change materials using nanoparticles and metal foams with nonuniform porosity[J]. JOURNAL OF ENERGY STORAGE,2021,44(B):103420.

[25] Jie Lei, Yuan Tian, Dan Zhou, Wenlin Ye, Yichen Huang,Ying Zhang*. Heat transfer enhancement in latent heat thermal energy storage using copper foams with varying porosity[J]. Solar Energy, 2021, 221: 75-86.

[26] Li, Zhihao, Zhang, Ying*, Li, Peisheng*, Huang, Yichen, Ye, Wenlin, Li, Wenbin.Numerical research on the effect of leaf venation shape bionic surface extension and the location on latent heat storage system[J]. Numerical Heat Transfer, Part A: Applications. 2021,80,(8):436-449.

[27] Zhang, Ying, Huang, Xuhui, Huang, Yichen, Xu, Meng, Lei, Jie. Numerical simulation of natural convection in a porous cavity with internal hot and cold sources using the lattice Boltzmann method [J]. Canadian Journal of Physics, 2021，99(10):933-945.

[28] Zhang, Ying, Ma, Ziqiang, Yao, Mengjun, Gao, Hui, Xu, Xun*. A numerical study on the thermocapillary migration of a droplet under microgravity with periodic thermal boundaries using the front-tracking method[J]. Canadian Journal of Physics, 2021，99(12):1042-1051.

[29] Ye, Wenlin, Tian, Yuan, Zhou, Dan, Li, Peisheng, Lei, Jie, Zhang, Ying *. Thermal Model and Numerical Simulation of Selective Laser Alloying Process of Elemental Ti and B[J]. Metals and Materials International, 2021,28(7):2791-2808.

[30] Ying Zhang, Yichen Huang, Meng Xu, Jie Lei, Zhihao Li, Yuan Tian*. Flow and heat transfer simulation in porous volumetric solar receivers by non-orthogonal multiple-relaxation time lattice Boltzmann method[J]. Solar Energy, 2020, 201: 409-419.

[31] Daoxu Zhang, Junzhi Zhao, Haotian Liu, Jin Bao, Ying Zhang*, Yuan Tian*. Numerical investigation on the influence of installation angle of inclined interrupted fins heat sink on heat dissipation performance[J]. Numerical Heat Transfer, Part A: Applications. 2021,80,(3):111-129.

[32] Ying Zhang, Hui Gao, Qiang Liu, Mengjun Yao, Jin Bao, Meng Xu*. The effect of fluctuating pressure gradient on the coalescence of Taylor bubble [J]. Canadian Journal of Physics, 2021，99(7):501-512.

[33] Ying Zhang, Zhen Xia, Benzhe Song, Meng Xu, Yuan Tian*. Experimental analysis on the loop heat pipes with different microchannel evaporators[J]. Applied Thermal Engineering, 2020, 178:115547.

[34] Ying Zhang, Yichen Huang, Meng Xu, Qikun Wan, Wenbin Li, Yuan Tian*. Flow and heat transfer simulation in a wall-driven porous cavity with internal heat source by multiple-relaxation time lattice Boltzmann method (MRT-LBM) [J]. Applied Thermal Engineering, 2020, 173:115209.

[35] Peisheng Li, Zhihao Li, Ying Zhang*, Wenbin Li, Yue Chen, Jie Lei. Numerical research on performance comparison of multi-layer high temperature latent heat storage under different structure parameter[J]. Renewable Energy, 2020,156（8）: 131-141

[36] Min Lu, Jiacai Lu, Ying Zhang*, Gretar Tryggvason. Numerical study of thermocapillary migration of a bubble in a channel with an obstruction[J]. Physics of Fluids,2019,31, (6):062101.

[37] Shengxiang Lin, Jiacai Lu, Gretar Tryggvason, Ying Zhang*. The effect of fluid shear on oscillating bubbly flows[J]. Physics of Fluids,2019,31(4):042110.

[38] Shengxiang Lin, Jiacai Lu, Gretar Tryggvason, Ying Zhang*. A numerical study of oscillation induced coalescence in bubbly flows[J]. Physics of Fluids, 2018,30,(12):127105.

[39] Min Lu, Jiacai Lu, Ying Zhang*, Gretar Tryggvason. Effect of electrostatic forces on the distribution of drops in turbulent channel flows[J]. Physics of Fluids, 2019,31(10): 105104.

[40] Peisheng Li, Xiaolong Lian, Yue Chen, Ying Zhang*, Wandong Zhao, Chunyang Ma. Multiple-relaxation-time lattice Boltzmann simulation of natural convection with multiple heat sources in a rectangular cavity[J]. Canadian Journal of Physics. 2020, 98(4): 332-343.

[41] Wandong Zhao, Yuan Gao, Ruijie Li, Songgang Qiu, Yin Zhang*, Ben Xu. Hybrid phase-change Lattice Boltzmann simulation of vapor condensation on vertical subcooled walls[J]. Journal of Heat Transfer-Transaction of the ASME, 2020, 142(4): 044503.

[42] Wenbin Li, Ying Zhang*, Yue Chen, Peisheng Li, Chunhong Ma. Numerical study on structures formed by the deposition and solidification of single molten droplet[J]. Canadian Journal of Physics. 2020,98,(10):907-916.

[43] Ying Zhang, Mengjun Yao, Wenqiang Shang, Chunyang Ma, Wenbin Li, Peisheng Li*. Numerical Analysis of Coupled Kelvin-Helmholtz and Rayleigh-Taylor Instability on Inclined Walls[J]. Canadian Journal of Physics. 2020,98：(8):790-800.

[44] Pengsheng Li, Chengyu Peng, Peng Du, Ying Zhang*, Boheng Dong, Ming Ma. The investigation of viscous fingering phenomenon of immiscible fluids displacement by Lattice Boltzmann method [J]. Canadian Journal of Physics. 2020, 98:(7): 650-659.

[45] Y. Zhang, J. Bao, M. Yao, Y. Xie, Y. Huang and P. Li*. Non-orthogonal Multiple-Relaxation-Time Lattice Boltzmann Simulation of Mixed Convection in Lid-Driven Porous Cavity with an Isothermally Heated Block[J]. Journal of Applied Fluid Mechanics. 2020,13,(5):1649-1662.

[46] Zhang Ying, Liu Qiang, Li Wenbin, Lian Xiaolong, Li Jinglun,Rao Xixin*. Analysis of dynamic characteristics of bubble rise under a free surface [J]. Canadian Journal of Physics. 2020, 98:(11): 981-992.

[47] Qichen Zhao, Ying Zhang*, Dan Zhou, Yichen Huang, Meng Xu, Yuan Tian*. Lattice Boltzmann method for nanofluid forced convection heat exchange in a porous channel with multiple heated sources[J]. Numerical Heat Transfer, Part A: Applications.2021,79(1):21-39.

[48] Wandong Zhao, Ruijie Li, Hailing Li, Ying Zhang, Songgang Qiu. Numerical analysis of fluid dynamics and thermodynamics in a Stirling engine [J]. Applied Thermal Engineering, 2021, 173:115209.

[49] Wandong Zhao,Ying Zhang*, Wenqiang Shang, Zhaotai Wang, Ben Xu*,Shuisheng Jiang.Simulation of droplet impacting a square solid obstacle in microchannel with different wettability by using high density ratio pseudopotential multiple-relaxation-time (MRT) lattice Boltzmann method (LBM)[J]. Canadian Journal of Physics.2019,97(1) :93-113.

[50] Zhang Ying, Wang Zhiqiang, Li Peisheng*, Zhou Min, Dong Boheng, Pan Yanni. Influence of Gas-Liquid Interface on Temperature Wave of Pulsating Heat Pipe[J]. International Journal of Photoenergy, 2018:7492079.

[51] Wandong Z , Xu B , Zhang Y* . An improved pseudopotential multi-relaxation-time Lattice Boltzmann model for binary droplets collision with large density ratio[J]. Fluid Dynamics Research, 2019,51(2):025510.

[52] Zhang Ying, Shang Wenqiang, Yao Mengjun, et al. Effect of intermediate fluid layer on Kelvin-Helmholtz instability[J]. Canadian Journal of Physics. 2018,96,(10):1145-1154.

[53] Wangdong Zhao, Ying Zhang*, Ben Xu*, Peisheng Li, Zhaotai Wang, Shuisheng Jiang. Multiple-Relaxation-Time Lattice Boltzmann Simulation of Flow and Heat Transfer in Porous Volumetric Solar Receivers[J]. Journal of Energy Resources Technology Transactions of the Asme. 2018;140(8): 082003-1-082003-12.

[54] Zhang Ying, Liu Peiyao, Li Peisheng*, Chen Yue,Pan Yanni. Study on the Instability of Two-Phase Flow in the Heat-Absorbing Tube of Trough Solar Collector[J]. International Journal of Photoenergy, 2017:6547203.

[55] Zhang Ying, Lu Min, Shang Wenqiang, Xia Zhen, Zeng Liang, Li Peisheng*. Numerical Simulation of Bubble Free Rise after Sudden Contraction Using the Front-Tracking Method[J]. International Journal of Photoenergy, 2017:5128345.

[56] Zhong Yuan, Du Haichun, Zhang Ying*, Chen Yue, Liu Qiang, Huang Jie. Experimental research on dynamic characteristics of viscous droplets impacting rough solid surfaces at different temperatures[J]. Canadian Journal of Physics, 2019,97(12):1288-1300.

[57] Ye, Wenlin, Zhang, Shanshan, Mendez, Mendez, Lazaro Lopez, Farias, Mathew, Li, Jianzhi, Xu, Ben, Li, Peisheng, Zhang, Ying.Numerical simulation of the melting and alloying processes of elemental titanium and boron powders using selective laser alloying[J]. Journal of Manufacturing Processes,2021,64 : 1235-1247.

[58] 李培生，黄杰，王昭太，张莹*，钟源.非均质表面诱导液滴脱落的数值模拟[J]. 华南理工大学学报,2020,48(2):42-49+75

[59] 张莹,包进,过海龙,连小龙,黄逸宸,李培生*.含内热源的多孔方腔自然对流非正交MRT-LBM模拟[J].北京航空航天大学学报,2020,46(02):241-251.

[60] 张莹,许术方,李文彬,夏珍,马明,李培生*.液滴撞击亲疏水间隔条纹表面[J].化工进展,2020,39(02):461-467.

[61] 张莹,黄逸宸,陈岳,马明,李培生,王昭太.含内热源的多孔方腔流热耦合非正交MRT-LBM数值模拟[J].北京航空航天大学学报,2019,45(09):1700-1712.

[62] 张莹,卢敏,李培生,许术方,刘强,黄杰.非均质壁面对液滴俘获能力的数值模拟研究[J].北京航空航天大学学报,2018,44(10):2021-2027.