胡芃

发布者:webmaster发布时间:2017-06-14浏览次数:15406

 


 

  别:男

出生年月:1974.6

   贯:山东济南

 

一、联系方式

单位:中国科学技术大学热科学和能源工程系

地址:安徽合肥中国科学技术大学热科学和能源工程系

邮编:230027

电话:0551-63601644

电子邮件:hupeng@ustc.edu.cn

办公室:西区力学五楼906

 

二、个人经历

19929月—19977月,中国科学技术大学,热科学和能源工程系,本科/学士

19979月—20027月,中国科学技术大学,热科学和能源工程系,硕博连读/博士

20016月—2006年1月,中国科学技术大学,热科学和能源工程系,讲师

20062月—20072月,美国国家标准与技术研究院 (NIST),访问学者

2007320205月,中国科学技术大学,热科学和能源工程系,副教授

2020年6月至今,中国科学技术大学,热科学和能源工程系,教授

 

三、研究方向

热物性、余热利用及热力循环、传热传质、太阳能


四、学术兼职

中国计量测试学会热物性专业委员会委员,安徽省制冷学会理事

 

五、主要科研项目

1.基于CO2+有机工质的低GWP混合工质临界性质、PVTx及VLE性质研究,国家自然科学基金项目,负责人,2022~2025

2.HFO/HCHFO/HFC/HC混合工质气液相平衡及PVTx性质研究,国家自然科学基金项目,负责人,2016~2019

3.整体方位跟踪塔式太阳能系统光学设计和优化基础研究,国家自然科学基金项目,主要成员,2016~2019

4.固固相变潜热型功能流体的热物性和传热性能研究,教育部基本科研业务费专项资金,负责人,2014~2015

5.瞬态辐射热流计,十二五预研项目,2012~2014

6.高辐照度磁分散氙气电弧等离子体太阳模拟器,中科院科研装备研制项目,主要成员,2012~2013

7.多能源互补的分布式冷然电联供系统基础研究-蓄能/释能过程与主动蓄能,国家973项目课题,主要成员,2010~2014

8.HFC/HC多元混合工质气液相平衡性质研究,国家自然科学基金项目,负责人,2010~2012

9.太阳能聚光分频光热光伏综合应用,中科院知识创新工程领域前沿项目,负责人,2009~2011

10.太阳能的分频利用和热发电中的热物理基础科学问题研究,国家自然科学基金重点项目,主要成员,2008~2011

11.沸石分子筛/泡沫铝复合吸附材料强化传热传质机理研究,国家自然科学基金青年项目,负责人,2007~2009

12.流体热物性自动测试技术及推算新方法的研究,国家自然科学基金重点项目,主要成员,2004~2007

 

六、获奖或荣誉

1.2020年度中国科学院教育教学成果奖二等奖(第一完成人),2020

2.2019年度安徽省科技进步奖二等奖(第二完成人),2020

3.优秀学生工作干部,2018

4.平凡基金--教育奖,2016

5.校优秀教材二等奖,2016

6.招生进步奖(集体奖),2015

7.毕业生就业工作先进个人,2015

8.张宗植青年教师奖,2013

 

七、专利

1.一种光伏电池表面镀分光膜的太阳能聚光光伏光热综合利用系统,实用新型,2015210103790

2.一种双环热保护瞬态辐射热流计及测量方法,发明专利,20131053975.3

3.一种太阳能聚光分频光伏光热综合利用装置,实用新型,2013201960305

4.一种分段式槽式太阳能聚光器,实用新型,2012203873877

5.一种平板型平面玻璃镜反射太阳能聚光器,实用新型,201020130154.X

6.一种固液相变材料稳定性测试系统,发明专利,2010102837046

7.太阳能均匀光叠加反射聚光镜的设计方法,发明专利,200910185169.8

8.复合源热泵热水机组,实用新型,200920143283.X

9.一种吸附剂/泡沫铝复合吸附材料及其制备方法,发明专利,200410014023.4

10.高密度太阳能中高温热能转换器,发明专利,200410065815.4

11.利用液化天然气冷能半导体温差发电及制氢的方法与装置,发明专利,02138349.9

 

八、主讲课程

1.制冷与热泵,本科生专业选修课

2.高等工程热力学,研究生专业基础课

 

九、教材专著

1.《量热技术和热物性测定》胡芃,陈则韶编著,中国科学技术大学出版社,2009 (中国科学技术大学精品教材、普通高等教育“十一五”国家级规划教材、“十一五”国家重点图书)

 

十、近期主要论文

1. Yi-Ran Jiang, Peng Hu, Cheng-Qi Jia, Pan-Pan Zhao, Lei Jia, Analysis of supercritical heat transfer in horizontal helical tube with internal roughness. Applied Thermal Engineering 2022, 211: 118463.

2. Jiang Yi-Ran, Hu Peng, Analysis of Heat Transfer Oscillation and Buoyancy Effects of Supercritical R1234ze(E) Cooled in Horizontal Helically Coiled Tubes. Journal of Thermal Science and Engineering Applications 2021, 13: 061012.

3. Zhang Nan, Hu Peng, Chen Long-Xiang, Liu Ming-Hou, Chen Qi, Measurements of Critical Properties of the Binary Mixture of 1,1,1-Trifluoroethane (HFC-143a) +trans-1,3,3,3-Tetrafluoropropene (HFO-1234ze(E)). Journal of Chemical and Engineering Data 2021, 66: 2717-2722.

4. Chen Q., Hu P., Pu J., Zhang T., Wang J. H., Interfacial interaction and roughness parameters effects on the residual stresses in DCL-TBC system with different thickness distributions. Ceramics International 2021, 47, (2), 2781-2792.

5. Hu P., Jiang Y.-R., Zhang G.-W., Miao Z., Thermodynamic Analysis for Supercritical Carbon Dioxide Brayton Cycle by Considering Both Thermal Efficiency and Cooler Area. Journal of Thermal Science and Engineering Applications 2021, 13: 011012.

6. Jiang Y.-R., Hu P., Ibrahim A., Experimental and numerical investigation on heat transfer characteristics of supercritical R1234ze(E) cooled in horizontal tubes. International Journal of Heat and Fluid Flow 2020, 85: 108650.

7. Xu W., Hu P., Numerical study on thermal behavior and a liquid cooling strategy for lithium-ion battery. International Journal of Energy Research 2020, 44, (9), 7645-7659.

8. Zhang, N.; Hu, P.; Chen, L.; Zhi, L., Molecular modeling of vapor-liquid equilibrium properties of HFC-161 and its mixture HFC-161+HFO-1234yf. Journal of Molecular Liquids 2020, 306: 112896.

9. Zhi, L.-H.; Hu, P.; Chen, L.-X.; Zhao, G., Performance analysis and optimization of engine waste heat recovery with an improved transcritical-subcritical parallel organic Rankine cycle based on zeotropic mixtures. Applied Thermal Engineering 2020, 181: 115991.

10. Zhi, L.-H.; Hu, P.; Chen, L.-X.; Zhao, G., Thermodynamic analysis of an innovative transcritical CO2 parallel Rankine cycle driven by engine waste heat and liquefied natural gas cold. Energy Conversion and Management 2020, 209: 112583.

11. Zhi, L.-H.; Hu, P.; Chen, L.-X.; Zhao, G., Thermodynamic analysis of a novel transcritical-subcritical parallel organic Rankine cycle system for engine waste heat recovery. Energy Conversion and Management 2019, 197: 111855.

12. Zhi, L.-H.; Hu, P.; Chen, L.-X.; Zhao, G., Parametric analysis and optimization of transcritical-subcritical dual-loop organic Rankine cycle using zeotropic mixtures for engine waste heat recovery. Energy Conversion and Management 2019, 195, 770-787.

13. Chen, L. X.; Hu, P.; Sheng, C. C.; Zhang, N.; Xie, M. N.; Wang, F. X., Thermodynamic analysis of three ejector based organic flash cycles for low grade waste heat recovery. Energy Conversion and Management 2019, 185, 384-395.

14. Zhi, L.-H.; Hu, P.; Chen, L.-X.; Zhao, G., Multiple parametric analysis, optimization and efficiency prediction of transcritical organic Rankine cycle using trans-1,3,3,3-tetrafluoropropene (R1234ze(E)) for low grade waste heat recovery. Energy Conversion and Management 2019, 180, 44-59.

15. Chen, Q.; Hu, P.; Pu, J.; Wang, J. H., Sensitivity analysis and multi-objective optimization of double-ceramic-layers thermal barrier system. Ceramics International 2019, 45, (14), 17224-17235.

16. Huang, W.; Yu, L.; Hu, P., An analytical solution for the solar flux density produced by a round focusing heliostat. Renewable Energy 2019, 134, 306-320.

17. Cai, X.-D.; Zhang, N.; Chen, L.-X.; Hu, P.; Zhao, G.; Liu, M.-H., Gaseous PvTx measurements of HFO-1234yf+HFC-32 binary mixture by single-sinker magnetic suspension densimeter. Fluid Phase Equilibria 2018, 460, 119-125.

18. Chen, L. X.; Hu, P.; Zhao, P. P.; Xie, M. N.; Wang, F. X., Thermodynamic analysis of a High Temperature Pumped Thermal Electricity Storage (HT-PTES) integrated with a parallel organic Rankine cycle (ORC). Energy Conversion and Management 2018, 177, 150-160.

19. Hu, P.; Huang, W., Performance analysis and optimization of an integrated azimuth tracking solar tower. Energy 2018, 157, 247-257.

20. Hu, P.; Zhang, N.; Chen, L.-X.; Cai, X.-D., Vapor-Liquid Equilibrium Measurements for 2,3,3,3-Tetrafluoroprop-1-ene + Butane at Temperatures from 283.15 to 323.15 K. Journal of Chemical and Engineering Data 2018, 63, (5), 1507-1512.

21. Chen, L. X.; Hu, P.; Zhao, P. P.; Xie, M. N.; Wang, D. X.; Wang, F. X., A novel throttling strategy for adiabatic compressed air energy storage system based on an ejector. Energy Conversion and Management 2018, 158, 50-59.

22. Chen, L. X.; Xie, M. N.; Zhao, P. P.; Wang, F. X.; Hu, P.; Wang, D. X., A novel isobaric adiabatic compressed air energy storage (IA-CAES) system on the base of volatile fluid. Applied Energy 2018, 210, 198-210.

23. Zhang, G.-W.; Hu, P.; Chen, L.-X.; Liu, M.-H., Experimental and simulation investigation on heat transfer characteristics of in-tube supercritical CO2 cooling flow. Applied Thermal Engineering 2018, 143, 1101-1113.

24. Zhi, L.-H.; Hu, P.; Chen, L.-X.; Zhao, G., Viscosity prediction for six pure refrigerants using different artificial neural networks. International Journal of Refrigeration-Revue Internationale Du Froid 2018, 88, 432-440.

25. Chen, L.-X.; Hu, P.; Sheng, C.-C.; Xie, M.-N., A novel compressed air energy storage (CAES) system combined with pre-cooler and using low grade waste heat as heat source. Energy 2017, 131, 259-266.

26. Hu, P.; Cai, X.-D.; Chen, L.-X.; Xu, H.; Zhao, G., pvT Properties of 2,3,3,3-Tetrafluoroprop-1-ene (HFO-1234yf) in the Gaseous Phase. Journal of Chemical and Engineering Data 2017, 62, (10), 3353-3359.

27. Zhang, G.; Hu, P.; Liu, M., Thermal performances of non-equidistant helical-coil phase change accumulator for latent heat storage. Science China-Technological Sciences 2017, 60, (5), 668-677.