网站个人信息
姓 名 | 张莹 | 性 别 | 女 | 照片 | |||||||||||||||||||||||||||||||||
国 籍 | 中国 | 学 位 | 博士 | ||||||||||||||||||||||||||||||||||
所学专业 | 材料加工工程 | 毕业院校 | 亚博官网 | ||||||||||||||||||||||||||||||||||
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@laplantacion.net | 所在单位 | 亚博官网学院能源与动力工程系 | ||||||||||||||||||||||||||||||||||
个人信息 | 亚博官网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。主要亚博官网研究领域为: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亚博官网研究、多孔介质内热流场介观分析亚博官网研究、超临界二氧化碳驱替亚博官网研究、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亚博官网研究、复杂热流场多相流介观尺度数值模拟与实验亚博官网研究、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 |
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工作履历 |
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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亚博官网研究,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亚博官网研究,国家自然科学基金52166009,2022.1-2025.12,直接经费35万元,主持,在研。 [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 [7].镁合金半固态流变铸轧相变传热机理亚博官网研究, 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亚博官网研究,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亚博官网研究,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亚博官网研究,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. http://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亚博官网研究[J].北京航空航天大学学报,2018,44(10):2021-2027.
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