教育背景与工作经历
教育背景
博士 上海交通大学 工程热物理专业 (导师:郑平教授) 2006.09-2010.06
硕士 西安交通大学 动力工程及工程热物理专业 (导师:袁秀玲教授) 2003.09-2006.05
学士 西安交通大学 能源与动力工程及计算机科学与技术专业 (双学士学位) 1999.09-2003.07
工作经历
上海理工大学,英国ladbrokes官方网站 2021.10-至今
大连理工大学,能源与动力学院 2015.09-2021.10
美国宾夕法尼亚州立大学 (合作教授:王朝阳教授) 2010.08-2015.07
代表性研究成果
科研项目
1. 2017.01-2019.12 盐溶液闪蒸过程两相流动与传热传质机理研究,国家自然科学基金青年科学基金项目,主持。
2. 2022.11-2023.12 500kW熔融碳酸盐燃料电池+余热利用发电系统设计,企业横向项目,主持。
3. 2018.12-2019.8 极板流道分析,企业横向项目,主持。
4. 2018.1-2018.7 金属双极板设计(B01)分析,企业横向项目,主持。
5. 2016.01-2017.12 全钒液流电池性能衰减的基础研究,大连理工大学基本科研业务费专项,主持。
6. 2016.05-2017.03 多种能源与海水淡化系统互补特性研究,企业横向项目,主持。
7. 2013.07- 2014.11 Development of Low-Pt Loading Model and Degradation Model in PEM Fuel Cells and Investigation of the Macro-scale Transport Processes for Improved Fuel Cell Performance, Honda Motor Corporation(本田汽车燃料电池项目),10.0万美元,Co-principal investigator。
8. 2013.04-2015.07 Development of a Robust PEM Fuel Cell Model for Fuel Cell Engine Design in Next Generation Fuel Cell Vehicle and Study of the Cold-start Process of a Fuel Cell in Sub-zero Environment,Toyota Motor Corporation(丰田汽车燃料电池项目),Co-principal investigator。
9. 2012.04-2014.03 Fuel Cell Model and Channel Two-Phase Flow in PEM Fuel Cells, Nissan Motor Corporation(日产汽车燃料电池项目),Co-principal investigator。
10. 2010.07-2012.06 Development and Validation of a Two-phase and 3D Model for PEMFC,U.S. DOE EERE Fuel Cell Technologies(美国能源部燃料电池项目),Co-principal investigator。
11. 2019.05-2020.05 冷却塔组热回流特性分析技术开发,企业横向项目,主要参与。
12. 2018.11-2020.12 高性能循环水冷却塔技术开发,企业横向项目,主要参与。
13. 2018.05-2018.09 循环水冷却塔高性能喷嘴开发,企业横向项目,主要参与。
14. 2017.09-2017.10 广州大学城冷却塔组热回流特性分析,企业横向项目,主要参与。
15. 2017.05-2017.08 循环水冷却塔外部降噪设备应用技术开发,企业横向项目,主要参与。
16. 2006.09-2010.06 微/纳尺度下流体流动与传热传质研究,国家自然科学基金重点项目,参与。
17. 2006.10-2007.10 质子交换膜燃料电池内的两相传输现象,Nissan Motor Company资助项目,参与。
教研项目
1. 2019.03-2020.07 研究生《高等传热学》全英文教学实践,大连理工大学
代表性论文
期刊
1. Linfeng Zang, Liang Hao* Xiaojing Zhu, Effect of the pore structure of cathode catalyst layer on the PEM fuel cell cold start process, Energy, 2023, doi: https://doi.org/10.1016/j.energy.2023.126993
2. Yuanhui Wang, Liang Hao, Minli Bai, Modeling the influence of water on the performance of non-aqueous Li-O2 batteries, Applied Energy, 330 (2023) 120356.
3. Shaojun Dou, Liang Hao*, Hong Liu, “Effects of liquid water on the pore structure and transport coefficients in the cathode catalyst layer of PEM fuel cells”, International Journal of Hydrogen Energy, 47(2022) 41138-41153
4. Shaojun Dou, Liang Hao*, Hong Liu, “A mesoscopic model for simulating the physisorption process in nanopores”, Chemical Engineering Science, 262(2022) 117988
5. Baoyi Yin, Liang Hao*, Tao Wei*, Chen Wang*, Bao Zhu, Xiaogan Li, Qiguo Yang, “Revealing bulk reaction kinetics of battery-like electrode for pseudocapacitor with ultra-high rate performance”, Chemical Engineering Journal, 450(2022) 138224
6. Yuanhui Wang, Liang Hao*, “Effects of cathode structure on the discharge performance of non-aqueous Li-O2 batteries”, Electrochimica Acta 425 (2022) 140703
7. Yiheng Pang, Liang Hao⁎, Yun Wang⁎, “Convolutional neural network analysis of radiography images for rapid water quantification in PEM fuel cell”, Applied Energy, 321(2022)119352
8. Huitong Zhao, Huan Chen, Xiaowei Ning, Chengwei Li, Chen Wang, Zeng Fan, Liang Hao, Lujun Pan*, “Three-dimensional porous framework constructed by hybrid of carbon nanotubes and carbon nanocoils for stable lithium metal anode”, Journal of Materials Research 37 (2022),2073–2081
9. Yuanhui Wang, Liang Hao*, Minli Bai, “Modeling the multi-step discharge and charge reaction mechanisms of non-aqueous Li-O2 batteries”, Applied Energy, 317 (2022)119189.
10. Baoyi Yin, Liang Hao*, Tao Wei*, Chen Wang*, Bao Zhu, Xiaogan Li, Qiguo Yang, “Defect engineering on sea-urchin-like transition-metal oxides for high-performance supercapacitors”, J Power Sources, 533(2022) 231409.
11. Yuanhui Wang, Meng Li, Liang Hao*, “Three-dimensional modeling study of all-vanadium redox flow batteries with the serpentine and interdigitated flow fields”, J. Electroanalytical Chemistry, 918(2022) 116460.
12. Yuanhui Wang, Liang Hao*, “Modeling discharge performance of Li-O2 batteries with different electrolyte compositions”, J. Electroanalytical Chemistry, 901(2021) 115745.
13. Yuanhui Wang, Liang Hao*, and Minlin Bai, “Effect of CO2-induced side reactions on the deposition in the non-aqueous Li-air batteries”, J Solid State Electrochem 25 (2021) 2571-2585.
14. Yuanhui Wang, Liang Hao*, and Minlin Bai, “Modeling Studies of the Discharge Performance of Li-O2 Batteries with Different Cathode Open Structures”, J. Electrochem. Soc.,168(2021) 070517.
15. Shaojun Dou, Liang Hao*, Hong Liu, “Numerical study of bubble behaviors and heat transfer in pool boiling of water/NaCl solutions using the lattice Boltzmann method”, International Journal of Thermal Sciences, 170(2021) 10715.
16. Yuanhui Wang, Liang Hao*, and Minlin Bai, “A Modeling Study of the Cycling Behavior of Non-Aqueous Li-O2/CO2 Batteries”, J. Electrochem. Soc.,168(2021) 020524
17. Shaojun Dou, Liang Hao*, “Numerical Study of Droplet Evaporations on Heated Flat and Micro-pillared Hydrophobic Surfaces by Using the Lattice Boltzmann Method”, Chemical Engineering Science, 229(2021)116032
18. Lingfeng Zang, Liang Hao*, “Numerical Study of the Cold-Start Process of PEM Fuel Cells with Different Current Density Operating Modes”, Journal of Energy Engineering, 146(2020) 04020057.
19. Shaojun Dou, Liang Hao*, “Investigation of Wetting States and Wetting Transition of Droplets on the Micro-structured Surface using the Lattice Boltzmann Model”, Numerical Heat Transfer, Part A: Applications, 78(2020) 321-337.
20. Liang Hao*, “Analysis of Bubble Growth and Motion Dynamics in Superheated Liquid during Flash Evaporation”, International Journal of Heat and Mass Transfer, 151(2020) 119356.
21. Liang Hao*, “A Mathematical Study of Bubble Dynamics in Superheated Sodium Chloride Solution”, International Journal of Heat and Mass Transfer, 145(2019) 118728.
22. Liang Hao*, Yuanhui Wang, Yusong He, “Modeling of Ion Crossover in an All-Vanadium Redox Flow Battery with the Interfacial Effect at Membrane/Electrode Interfaces”, J. Electrochem. Soc., 166(2019) A1310-A1322.
23. Yuanhui Wang and Liang Hao*, “Effect of Membrane Properties on Ion Crossover in Vanadium Redox Flow Batteries”, J. Electrochem. Soc. 166(2019): A3784-A3795. (IF: 4.386)
24. Cheng-Zhou Hang, Chen Wang*, Bin Gao, Huan Chen, Liang Hao*, Hong-Liang Lu. Sub-nanosecond pulse programming and device design strategy for analog resistive switching in HfOx-based resistive random access memory, Applied Physics Letters, 114(2019), 112102-1-5.
25. Rui Sun, Huan Chen, Guanran Wang, Chen Wang*, Liang Hao,Reduction of thermal disturbances in 3D 1S1R RRAM crossbar arrays for neuromorphic computing, SEMICONDUCTOR SCIENCE & TECHNOLOGY, 34(2019)115023.
26. Liang Hao, Koji Moriyama, Wenbin Gu, Chaoyang Wang*, “Three Dimensional Computations and Experimental Comparisons for a Large-Scale Proton Exchange Membrane Fuel Cell”, J. Electrochemical Society, 163 (2016) F744-F751.
27. Liang Hao, Koji Moriyama, Wenbin Gu, Chaoyang Wang*, “Modeling and Experimental Validation of Pt Loading and Electrode Composition Effects in PEM Fuel Cells”, J. Electrochemical Society, 162 (2015) F854-F867.
28. Liang Hao, Ping Cheng*, “Capillary Pressures in Carbon Paper Gas Diffusion Layers Having Hydrophilic and Hydrophobic Pores”, Int. J. Heat and Mass Transfer 55 (2012) 133-139.
29. Liang Hao, Ping Cheng*, “Lattice Boltzmann Simulations of Water Transport in Gas Diffusion Layer of a Polymer Electrolyte Membrane Fuel Cell”, J. Power Sources 195 (2010) 3870-3881.
30. Liang Hao, Ping Cheng*, “Pore-Scale Simulations on Relative Permeability of Porous Media by Lattice Boltzmann method”, Int. J. Heat and Mass Transfer 53 (2010) 1908-1913.
31. Liang Hao, Ping Cheng*, “An analytical Model for Micro-droplet Steady Movement on the Hydrophobic Wall of a Micro-channel”, Int. J. Heat and Mass Transfer 53 (2010) 1243-1246.
32. Liang Hao, Ping Cheng*, “Lattice Boltzmann Simulations of Liquid Droplet Dynamic Behavior on a Hydrophobic Surface of a Gas Flow Channel”, J. Power Source 190 (2009) 435-446.
33. Liang Hao, Ping Cheng*, “Lattice Boltzmann Simulations of Anisotropic Permeabilities in Carbon Paper Gas Diffusion Layers”, J. Power Sources 186 (2009) 104-114.
34. Guodong Wang, Liang Hao, Ping Cheng*, “A Four-Zone Model for Saturated Flow Boiling in a Microchannel of Rectangular Cross-Section”, Int. J. Heat and Mass Transfer 53 (2010) 3439-3448.
35. Guodong Wang, Liang Hao, P. Cheng*, “An Experimental and Numerical Study of Forced Convection in a Microchannel with Negligible Axial Heat Conduction”, Int. J. Heat and Mass Transfer 52(2009) 1070-1074.
36. Brian Carnes, Dusan Spernjak, Gang Luo, Liang Hao, Ken S. Chen, Chao-Yang Wang*, Rangachary Mukundan, Rodney L. Borup, “Validation of a Two-phase Multidimensional Polymer Electrolyte Membrane Fuel Cell Computational Model using Current Distribution Measurements”, J. Power Sources 236 (2013) 126-137.
37. 刘斌,郝亮*,静态闪蒸过程汽泡生长的理论与实验研究,热科学与技术,5(2021)438-445。
38. 何玉松,郝亮*,“质子交换膜燃料电池微扩散层孔隙结构与渗透率的孔隙尺度模拟”,上海交通大学学报. 2020, 54(10)1053-1064
39. 王刚,郝亮*,张冠锋,沈胜强, “基于风能利用的机械蒸汽压缩海水淡化系统模拟”, 热科学与技术,16(2017) 40-46。
40. 孙峰,王刚,郝亮,张冠锋,沈胜强*,机械蒸汽压缩机模型及其与风力发电机耦合模拟研究,热科学与技术,16(2017) 418-423。
41. 郝亮,阚杰,李涛,李强,袁秀玲*,“汽车空调层叠式蒸发器性能模拟研究”,哈尔滨工业大学学报,7(2008) 1165-1168.
42. 郝亮,阚杰,李涛,李强,袁秀玲*,“冷藏车制冷系统应用层叠式蒸发器与管翅式蒸发器的模拟比较”,制冷学报,3(2006) 30-34.
43. 董晓俊,郝亮,阚杰,陈蕴光,袁秀玲*,“双蒸发器冷藏车制冷系统应用R404A的模拟研究”,西安交通大学学报,40(2006) 67-71.
44. 郝亮,阚杰,李涛,李强,袁秀玲*,“汽车空调层叠式与管带式蒸发器性能模拟分析比较”,制冷与空调,7(2007) 61-65.
45. 郝亮,阚杰,李涛,李强,袁秀玲*,“冷藏车层叠式蒸发器应用R404A与R22和R134a的比较”,制冷与空调,6(2006)29-33.
46. 郝亮,阚杰,袁秀玲*,“蒸发式冷凝器稳态模型数值模拟”,制冷与空调,5(2005) 31-34.
会议
1. Linfeng Zang, Liang Hao*,The effects of current density modes on the cold start process of PEM fuel cells,The First International Conference on PEM Fuel Cell Science and Technology,November 15-18, 2019 Xi'an, China.
2. Liang Hao*, Yuanhui Wang, The Modeling Study of Ion Crossover in a Vanadium Redox Flow Battery, The International Conference on Thermal Science and Technology (ICTST) 2017, November 2017, 17-19th, Kuta, Bali, Indonesia.
3. Liang Hao*, Shengqiang Shen, A Modeling Study of Using Fluctuant Renewable Wind Energy for Seawater Desalination, IDA World Congress 2017, Oct.15-19, 2017, São Paulo, Brazil.
4. Liang Hao, Chaoyang Wang*, “A New Water Saturation Jump Model at GDL/MPL/CL Interfaces of a PEM Fuel Cell”, 225th ECS Meeting, May 11, 2014, Orlando, FL, USA.
5. Liang Hao, Chaoyang Wang*, Gang Luo, “Fully Two-Phase Modeling for PEM Fuel Cells”, ASME 2011 9th International Conference on Fuel Cell Science, August 10, 2011, Washington D.C., USA
6. Ken S. Chen, Brian Carnes, Liang Hao, Gang Luo, Yan Ji, Chao-Yang Wang*, “A Three-dimensional Two-phase Model for Simulating PEM Fuel Cell Performance”, ASME 2011 9th International Conference on Fuel Cell Science, August 10, 2011, Washington D.C., USA
7. Brian Carnes, Ken S. Chen, Liang Hao, Gang Luo, Yan Ji, Chao-Yang Wang*, Dusan Spernjak, “Validation and Uncertainty Quantification of a Two-Phase, Multidimensional PEMFC Computer Model Using High-Resolution Segmented Current Collector Data”, ASME 2011 9th International Conference on Fuel Cell Science, August 10, 2011, Washington D.C., USA
8. Ken S. Chen, Brian Carnes, Liang Hao, Yan Ji, Gang Luo, Chao-Yang Wang*, Yun Wang, “Toward the Development and Validation of a Comprehensive PEM Fuel Cell Model”, ASME 2011 9th International Conference on Fuel Cell Science, August 10, 2011, Washington D.C., USA
9. Liang Hao, Ping Cheng*, “Mesoscale Simulations of Single & Two-Phase Transport in PEM Fuel Cells by Lattice Boltzmann Method”, keynote paper of Proceedings of 6th International Conference on Computational Heat and Mass Transfer (ICCHMT), May 18-21, 2009, Guangzhou, China.
10. 豆少军,郝亮*,液态水对PEM燃料电池催化层内气体扩散的影响研究,中国工程热物理学会传热传质学术会议,杭州,2022,223312
11. 周操,郝亮*. 质子交换膜燃料电池阴极催化层衰减模型研究,中国工程热物理学会传热传质学术会议,上海,2021,213361
12. 黄义雄,郝亮*, 锂金属负极结构对锂沉积过程的影响. 高等学校工程热物理第二十七届全国学术会议,主办单位:湘潭,2021,A-2021055
13. 臧琳峰,郝亮*,朱晓静, “质子交换膜燃料电池堆冷启动过程歧管配流分析”,中国工程热物理学会多相流学术会议, 江苏苏州,2021,216374
14. 王园辉,郝亮*,白敏丽,阴极厚度对高性能锂空气电池的影响,中国工程热物理学会,广东广州,2020,203074.
15. 豆少军,郝亮*,NaCl溶液池沸腾换热性能的模拟研究,中国工程热物理学会,广东广州,2020,203491.
16. 李盟, 郝亮*, 流场结构对全钒液流电池性能影响的研究,中国工程热物理学会2019年传热传质学术会议.
专利
1. 尹宝翊,郝亮,一种花状磷化钴酸镍材料、制备方法及应用,CN112960706B,授权
2. 郝亮,王峥,王晨,金圣皓,一种自发电智能温度计,CN109341866A,申请
3. 王晨,樊宏波,黄阳,郝亮,边继明,杨一鸣,一种基于有机无机杂化钙钛矿的阈值开关器件及其制备方法,CN109755391B,授权
4. 黄阳, 王晨, 樊宏波, 郝亮, 边继明, 杨一鸣, 基于有机无机杂化钙钛矿材料同时实现易失和非易失的阻变存储器及其制备方法, CN109755388B,授权
5. 郝亮王峥王晨金圣皓,一种自发电智能温度计,CN209043463U,授权
6. 王刚,郝亮,沈胜强,张冠锋,孙峰,张涛,戈阳阳,赵青松,一种利用风能的机械蒸汽压缩海水淡化装置,CN206486305U,授权
7. 张冠锋,郝亮,沈胜强,王刚,孙峰,张涛,戈阳阳,李胜辉,一种利用风能和太阳能的水电联产系统,CN206486306U,授权
软件著作
1. 郝亮,“海水淡化系统模拟软件”,计算机软件著作权,2018,授权
荣誉与奖励
2012年全国百篇优秀博士论文提名奖
2011年上海市优秀博士论文奖
2003年第七届“夏安世教授奖” (Lennox Global Ltd. Award)
主讲课程
【本科生课程】节能技术(双语)、专业创新实践训练B(双语)、科技英语阅读与写作(双语)、CFD课程训练(英)