胡成志副教授任职于大连理工大学能源与动力学院。于2010年获得哈尔滨工业大学学士学位，2016年获得大连理工大学博士学位，并荣获辽宁省优秀博士毕业生荣誉称号。

团队主要围绕大功率电子器件热控制、动力电池组热管理、航空航天热防护、先进抗磨减阻技术等领域开展基础研究和应用技术开发。开发了回路热管、大功率平板热管、热虹吸管、热压转换强化传热器件、大功率蓄热装置等多种先进热管理系统，并拥有发明专利8项，软件著作权1项，实用新型专利2项，正在申请发明专利4项。近5年在电子器件热管理领域主持了3项国家自然科学基金项目（2项面上项目，1项青年基金）及若干项JG项目，作为骨干成员参与了国家重点研发计划项目、JW项目、国家自然科学基金重点项目等，发表国际SCI期刊80余篇。课题组经费充足，培养的研究生进入国内顶尖相关行业研究所工作，欢迎广大同学保送/报考研究生。

研究方向:

电子器件热管理；

航空航天热管理；

蓄热技术研究；

热管传热技术研究；

低品位能源转换；

主持项目：

国家自然科学基金面上项目2项；

国家自然科学基金青年项目1项；

辽宁省自然科学基金面上项目1项；

JG院所委托项目若干；

参与项目：

国家重点研发计划；

国际合作重点项目；

JCJQ重大项目；

任职经历：

2021.1-今  副教授  硕导  博导

2017.5-2020.12  讲师  硕导

 部分发表论文：

1.        C. Hu(通讯), Y. Jiang, H. Zhang, Y. Cai, Y. Li, D. Tang, Hygroscopic films integrated with the fin structure: a long-term cooling solution for fin heat exchangers, Journal of Materials Chemistry A (2025).

2.        C. Hu(通讯), X. Duan, Y. Cai, Y. Li, D. Tang, MD study of forced liquid film spreading and evaporation in a pore channel, International Journal of Heat and Mass Transfer 253 (2025) 127581.

3.        C. Hu(通讯), Y. Cai, H. Wang, X. Hu, X. Han, Y. Li, D. Tang, Stabilized metal nanowires with nanotwin boundaries used for boiling heat transfer, Applied Thermal Engineering (2025) 126610.

4.        Z. Liu, Y. Cai, J. Lu, Y. Li, D. Tang, C. Hu(通讯), The thermal performance of bellows tube as a condenser in two-phase loop thermosyphon within a wide range of filling ratios, International Communications in Heat and Mass Transfer 169 (2025) 109566.

5.        J. Lu, Y. Cai, Y. Li, C. Hu(通讯), D. Tang*, Visualization investigation of the impact of two-phase flow patterns on heat transfer in the loop thermosyphon with a parallel mini-channels evaporator, Applied Thermal Engineering 279 (2025) 127636.

6.        Y. Cai, X. Hu, J. Lu, Y. Li, D. Tang, C. Hu(通讯), Impact of working fluid properties on heat transfer and flow characteristics of two-phase loop thermosyphon with high filling ratios, International Journal of Heat and Mass Transfer 238 (2025) 126482.

7.        C. Yi, C. Hu(通讯), L. Shi, M. Bai, Y. Li, D. Tang, Simulation-based research on enhancing lubricity: investigating wettability and textured surfaces in alkane lubricants under boundary lubrication conditions, Nanotechnology 35(47) (2024).

8.        X. Hu, C. Hu(通讯), Y. He, Y. Cai, J. Zhu, Z. Tian, F. Liu, D. Tang, Phase change and fluid transport in porous evaporators, Chemical Engineering Journal 498 (2024) 155316.

9.        X. Hu, C. Hu(通讯), S. Chen, Y. He, L. Li, D. Tang, Biomimetic porous wick with efficient fluid transport and excellent heat transfer for loop heat pipes, Applied Thermal Engineering 249 (2024) 123377.

10.    Y. He, C. Hu(通讯), X. Hu, H. Wang, D. Tang, Assessing the enhancements in thermal performance of two-phase thermosyphon loops through riser wettability optimization, International Journal of Heat and Mass Transfer 218 (2024) 124731.

11.    C. Yi, C. Hu(通讯), L. Shi, M. Bai, Y. Li, D. Tang, Frictional properties of MoS2 on a multi-level rough wall under starved lubrication, Physical Chemistry Chemical Physics 25(20) (2023) 14348-14358.

12.    K. Wang, C. Hu(通讯), Y. Cai, Y. Li, D. Tang, Investigation of heat transfer and flow characteristics in two-phase loop thermosyphon by visualization experiments and CFD simulations, International Journal of Heat and Mass Transfer 203 (2023) 123812.

13.    H. Li, C. Hu(通讯), Y. Jiang, J. Zhu, Y. He, X. Hu, D. Tang, Flexible and Leakage-Proof Sodium Alginate-Based Phase Change Composite Film for Thermal-Comfortable Application of Electronic Devices, ACS Sustainable Chemistry & Engineering 11(29) (2023) 10620-10630.

14.    H. Li, C. Hu(通讯), Y. Jiang, Y. He, D. Tang, Improved body-centered cubic unit for accurately predicting the melting characteristics of metal foam composite phase change material, International Journal of Heat and Mass Transfer 201 (2023).

15.    X. Hu, C. Hu(通讯), H. Xu, Y. He, D. Tang, Polyethersulfone wick and metal wick based loop heat pipe for LED street light thermal management, Case Studies in Thermal Engineering 49 (2023) 103175.

16.    X. Hu, C. Hu(通讯), Y. He, H. Xu, D. Tang, A polyethersulfone film porous wick for loop heat pipes, International Communications in Heat and Mass Transfer 142 (2023) 106652.

17.    C. Hu(通讯), L. Shi, C. Yi, M. Bai, Y. Li, D. Tang, Mechanism of enhanced phase-change process on structured surface: Evolution of solid-liquid-gas interface, International Journal of Heat and Mass Transfer 205 (2023) 123915.

18.    C. Hu(通讯), Y. Jiang, S. Chen, L. Wang, H. Li, Y. Li, D. Tang, Copper foam reinforced polymer-based phase change material composites for more efficient thermal management of lithium-ion batteries, J. Energy Storage 73 (2023) 108918.

19.    Y. He, C. Hu(通讯), X. Hu, H. Xu, D. Tang, Assessment of the two-phase thermosyphon loop with high filling ratio under anti-gravity, International Journal of Heat and Mass Transfer 206 (2023) 123968.

20.    K. Wang, C. Hu(通讯), B. Jiang, X. Hu, D. Tang, Numerical simulation on the heat transfer characteristics of two-phase loop thermosyphon with high filling ratios, International Journal of Heat and Mass Transfer 184 (2022) 122311.

21.    M. Sun, L. Zhang, C. Hu(通讯), J. Zhao, D. Tang, Y. Song, Forced convective heat transfer in optimized kelvin cells to enhance overall performance, Energy 242 (2022).

22.    L. Shi, C. Hu(通讯), C. Yi, J. Lyu, M. Bai, D. Tang, A study of interface evolution-triggering different nucleate boiling heat transfer phenomenon on the structured surfaces, International Journal of Heat and Mass Transfer 190 (2022) 122754.

23.    L. Shi, C. Hu(通讯), C. Yi, M. Bai, J. Lyu, L. Gao, A study of how solid-liquid interactions affect flow resistance and heat transfer at different temperatures based on molecular dynamics simulations, Physical Chemistry Chemical Physics 25(1) (2022) 813-821.

24.    H. Li, C. Hu(通讯), H. Wang, Y. He, X. Hu, D. Tang, Thermal effect of nanoparticles on the metal foam composite phase change material: A pore-scale study, International Journal of Thermal Sciences 179 (2022).

25.    H. Li, C. Hu(通讯), Y. He, J. Zhu, H. Liu, D. Tang, A synergistic improvement in heat storage rate and capacity of nano-enhanced phase change materials, International Journal of Heat and Mass Transfer 192 (2022).

26.    H. Li, C. Hu(通讯), Y. He, K. Wang, D. Tang, Pore-scale study on Rayleigh-B acute accent enard convection formed in the melting process of metal foam composite phase change material, International Journal of Thermal Sciences 177 (2022).

27.    H. Li, C. Hu(通讯), Y. He, Z. Sun, Z. Yin, D. Tang, Emerging surface strategies for porous materials-based phase change composites, Matter 5(10) (2022) 3225-3259.

28.    C. Hu(通讯), Z. Pei, L. Shi, D. Tang, M. Bai, Phase transition properties of thin liquid films with various thickness on different wettability surfaces, International Communications in Heat and Mass Transfer 135 (2022) 106125.

29.    C. Hu(通讯), H. Li, Y. Wang, X. Hu, D. Tang, Experimental and numerical investigations of lithium-ion battery thermal management using flat heat pipe and phase change material, J. Energy Storage 55 (2022).

30.    Y. He, Z. Sun, C. Hu(通讯), Z. Wang, H. Li, Z. Yin, D. Tang, Data-driven engineering descriptor and refined scale relations for predicting bubble departure diameter, International Journal of Heat and Mass Transfer 195 (2022).

31.    Y. He, C. Hu(通讯), H. Li, B. Jiang, X. Hu, K. Wang, D. Tang, A flexible image processing technique for measuring bubble parameters based on a neural network, Chemical Engineering Journal 429 (2022).

32.    Y. He, C. Hu(通讯), H. Li, X. Hu, D. Tang, Reliable predictions of bubble departure frequency in subcooled flow boiling: A machine learning-based approach, International Journal of Heat and Mass Transfer 195 (2022).

33.    Y. He, C. Hu(通讯), H. Li, X. Hu, D. Tang, Experimental investigation on air-cooling type loop thermosyphon thermal characteristic with serpentine tube heat exchanger, International Journal of Refrigeration 138 (2022) 52-60.

34.    Y. He, C. Hu(通讯), H. Li, X. Hu, D. Tang, Visualized-experimental investigation on a mini-diameter loop thermosyphon with a wide range of filling ratios, International Communications in Heat and Mass Transfer 133 (2022) 105973.

35.    C. Yi, C. Hu(通讯), L. Shi, M. Bai, J. Lv, Wettability of complex Long-Chain alkanes droplets on Pillar-type surfaces, Applied Surface Science 566 (2021) 150752.

36.    M. Sun, M. Li, C. Hu(通讯), L. Yang, Y. Song, D. Tang, J. Zhao, Comparison of forced convective heat transfer between pillar and real foam structure under high Reynolds number, Applied Thermal Engineering 182 (2021).

37.    H. Li, C. Hu(通讯), Y. He, D. Tang, K. Wang, W. Huang, Effect of perforated fins on the heat-transfer performance of vertical shell-and-tube latent heat energy storage unit, J. Energy Storage 39 (2021).

38.    H. Li, C. Hu(通讯), Y. He, D. Tang, K. Wang, X. Hu, Influence of model inclination on the melting behavior of graded metal foam composite phase change material: A pore-scale study, J. Energy Storage 44 (2021).

39.    H. Li, C. Hu(通讯), Y. He, D. Tang, K. Wang, X. Hu, Visualized-experimental investigation on the energy storage performance of PCM infiltrated in the metal foam with varying pore densities, Energy 237 (2021).

40.    H. Li, C. Hu(通讯), Y. He, D. Tang, K. Wang, Influence of fin parameters on the melting behavior in a horizontal shell-and-tube latent heat storage unit with longitudinal fins, J. Energy Storage 34 (2021).

41.    C. Yi, C. Hu(通讯), M. Bai, J. Lv, D. Tang, Molecular dynamics study on the mechanical properties of multilayer MoS2 under different potentials, Nanotechnology 31(21) (2020).

42.    M. Sun, C. Hu(共一), L. Zha, Z. Xie, L. Yang, D. Tang, Y. Song, J. Zhao, Pore-scale simulation of forced convection heat transfer under turbulent conditions in open-cell metal foam, Chemical Engineering Journal 389 (2020).

43.    C. Hu(通讯), C. Yi, M. Bai, J. Lv, D. Tang, Molecular dynamics study of the frictional properties of multilayer MoS2, Rsc Advances 10(30) (2020) 17418-17426.

44.    C. Hu, M. Sun, Z. Xie, L. Yang, Y. Song, D. Tang, J. Zhao, Numerical simulation on the forced convection heat transfer of porous medium for turbine engine heat exchanger applications, Applied Thermal Engineering 180 (2020).

45.    C. Hu(通讯), J. Lv, M. Bai, X. Zhang, D. Tang, Molecular dynamics simulation of effects of nanoparticles on frictional heating and tribological properties at various temperatures, Friction 8(3) (2020) 531-541.

46.    C. Hu(通讯), H. Li, D. Tang, J. Zhu, K. Wang, X. Hu, M. Bai, Pore-scale investigation on the heat-storage characteristics of phase change material in graded copper foam, Applied Thermal Engineering 178 (2020).

47.    X. Yin, C. Hu(通讯), M. Bai, J. Lv, Effects of depositional nanoparticle wettability on explosive boiling heat transfer: A molecular dynamics study, International Communications in Heat and Mass Transfer 109 (2019).

48.    J. Lv, C. Hu(通讯), M. Bai, L. Li, L. Shi, D. Gao, Visualization of SiO2-water nanofluid flow characteristics in backward facing step using PIV, Experimental Thermal and Fluid Science 101 (2019) 151-159.

49.    C. Hu(通讯), D. Tang, J. Lv, M. Bai, X. Zhang, Molecular dynamics simulation of frictional properties of Couette flow with striped superhydrophobic surfaces under different loads, Physical Chemistry Chemical Physics 21(32) (2019) 17786-17791.

50.    X. Yin, M. Bai, C. Hu(通讯), J. Lv, Molecular dynamics simulation on the effect of nanoparticle deposition and nondeposition on the nanofluid explosive boiling heat transfer, Numerical Heat Transfer Part a-Applications 73(8) (2018) 553-564.

51.    J. Lv, C. Hu(通讯), M. Bai, K. Zeng, S. Chang, D. Gao, Experimental investigation of free single jet impingement using SiO2-water nanofluid, Experimental Thermal and Fluid Science 84 (2017) 39-46.

52.    C. Hu, M. Bai, J. Lv, X. Li, An investigation on the flow and heat transfer characteristics of nanofluids by nonequilibrium molecular dynamics simulations, Numer Heat Tranf. B-Fundam. 70(2) (2016) 152-163.

53.    C. Hu, M. Bai, J. Lv, X. Li, Molecular dynamics simulation of mechanism of nanoparticle in improving load-carrying capacity of lubricant film, Computational Materials Science 109 (2015) 97-103.

54.    C. Hu, M. Bai, J. Lv, Z. Kou, X. Li, Molecular dynamics simulation on the tribology properties of two hard nanoparticles (diamond and silicon dioxide) confined by two iron blocks, Tribology International 90 (2015) 297-305.

55.    C. Hu, M. Bai, J. Lv, P. Wang, L. Zhang, X. Li, Molecular dynamics simulation of nanofluid's flow behaviors in the near-wall model and main flow model, Microfluidics and Nanofluidics 17(3) (2014) 581-589.

56.    C. Hu, M. Bai, J. Lv, P. Wang, X. Li, Molecular dynamics simulation on the friction properties of nanofluids confined by idealized surfaces, Tribology International 78 (2014) 152-159.

57.    C. Hu, M. Bai, J. Lv, H. Liu, X. Li, Molecular dynamics investigation of the effect of copper nanoparticle on the solid contact between friction surfaces, Applied Surface Science 321 (2014) 302-309.

2010.9 -- 2016.10
大连理工大学       工程热物理       博士

2006.9 -- 2010.7
哈工大（威海）       热能与动力工程       学士

2017.5 -- 至今

大连理工大学      讲师

新型高强度换热器件传热机理、器件开发及在电子散热方面的应用

功能流体流动传热的多尺度耦合研究；

内燃机关键部件润滑摩擦传热耦合问题研究；