胡玥

发布时间:2021年10月14日 17:29 阅读人数:
姓名:胡玥 研究方向:电子器件热管理、清洁能源高效利用、复杂热力系统节能诊断
导师类型:硕士生导师 主讲硕士生课程:
职称:副教授 主讲博士生课程:
专业:热能工程 联系方式:huyue@hbut.edu.cn


个人介绍:

教授,硕士生导师,主要从事电子器件热管理、清洁能源高效利用、复杂热力系统节能诊断等方向研究。2017华北电力大学热能工程博士学位,期间英国爱丁堡大学进行联合培养1年多2024年获批省级一流课程,2020年获湖北省技术发明奖二等奖。在Energy conversion and managementEnergyFuel等国际知名期刊发表论文20余篇,授权发明专利3项,实用新型专利9项。指导学生获2021年全国大学生集创赛国家一等奖,2018年湖北省大学生物理实验创新设计竞赛三等奖。


科研项目:

(1)湖北省科技厅国际科技合作项目,2025EHA008,智能光伏微电子系统多物理场协同增效和集成优化关键技术,2025-82027-830万元,主持

(2)科技部重点研发计划,2023YFE0126400,中国-苏丹新型光伏生态农业联合实验室,2023-122026-11600万元,参与

(3)湖北省科技厅重点研发计划项目,2021EHB018,新型光伏农业系统关键技术研究及应用示范,2021-102023-0930万元,参与

(4)湖北省教育厅青年人才项目,Q20181402,碟式聚光型太阳能光伏/光热系统集成研究,2018-012019-122万,主持


科研成果:

[1] Hu Y*, Yao S, Yao Y, Lv H. Performance evaluation and scale optimization of a spectral splitting solar-wind-hydrogen hybrid system[J]. Energy, 2025, 314: 134316.

[2] Hu Y*, Li P, Yao Y, Lv HXu C. Numerical analysis and performance investigation of holographic spectrum-splitting concentrated photovoltaic-thermoelectric hybrid system with phase change material[J]. Energy Conversion and Management, 2025, 328: 119571.

[3] Hu Y*, Meng G, Yao Y, Zhang F, Luoshan M. Experimental investigation on the start-up and thermal performance of nanofluid-based pulsating heat pipe[J]. Applied Thermal Engineering, 2024, 259: 124857.

[3] Li Y, Hu Y*, Xiao M, Yao Y, Lv H. Performance investigation of cross-regional utilization and production of renewable hydrogen[J]. Applied Thermal Engineering, 2024, 243: 122567.

[4] Hu Y, Wang H, Xiong Y, Chu J, Yao Y, Lv H, Xue X, Xu C. Performance investigation on an agricultural photovoltaic thermal system based on spectral separation[J]. Renewable Energy, 2024, 221: 119720.

[5] Zhang L, Hu Y*, Chu J, Yao Y, Lv H. Performance investigation on a concentrating photovoltaic thermal system integrated with spectral splitter and absorption heat pump[J]. Applied Thermal Engineering, 2024, 237: 121772.

[6] Liang X, Hu Y*,  Yao Y, Lv H. Performance investigation of V-trough concentrating agrivoltaic system based on spectral splitting[J]. International Journal of Low-Carbon Technologies, 2024, 19: 581-593.

[7] Li Y, Hu Y*, Chu J, Yao Y, Lv H, Xu C. Investigation of renewable methanol production from CO2 hydrogeneration based on spectral splitting and heat integration[J]. Fuel, 2023, 352: 129041.

[8] Hu Y, Zhang L,Lv H, Lu S, Xu G, Xu C. A low energy consumption de-carbonization natural gas combined cycle power generation system based on LiBr/H2O absorption heat transformer[J]. International Journal of Greenhouse Gas Control, 2021, 109: 103389.

[9] Hu Y, Zhang L, Zhang H, Lv H, Xu C. Thermodynamic analysis of a spectral-splitting hybrid PV-thermal system with LiBr/H2O absorption heat transformer[J]. Energy Conversion and Management, 2021, 249: 114868.    

[10] Luo Y, Hu Y, Lu T. Efficient optimized design of solar power tower plants based on successive response surface methodology[J]. International Journal of Low-Carbon Technologies, 2019, 14(4): 475-486.

[11] Lv H, Chen X, Hu Y*, Li J, Su Y, Riffat S, Dong S. The prototype construction and performance evaluation of dish-type concentrator photovoltaic system[J]. International Journal of Low-Carbon Technologies, 2019, 14: 294-301.