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饶政华
个人简介
姓名:饶政华

系所:新能源科学与工程

职称:副教授

邮箱:raoz@csu.edu.cn

中南大学供热、通风与空调工程专业学士,中南大学制冷及低温工程专业工学硕士,中南大学与美国 Missouri University of Science and Technology 联合培养工程热物理专业工学博士。

2007年至2009年获国家留学基金委的资助赴美留学。一直从事动力工程及工程热物理、制冷与空调相关学科的教学研究工作,参与完成了国家863项目、自然科学基金项目、省部级重大课题和国际合作项目的研究工作。目前主持湖南省自然科学基金项目、教育部科研专项资金项目、美国通用汽车公司等企业委托合作项目。

近年来主要开展了太阳能热发电、金属及复合材料加工过程的传热传质、超临界CO2流动传热等研究,研究成果发表于国内外权威学术期刊以及国际学术会议,其中SCI收录论文30余篇。

科研方向
1、 新能源技术:太阳能热利用技术,地热能利用技术,能源利用系统仿真与优化

2、 工程热物理与能源利用的基础问题:材料加工过程模拟与分析(传热/传质、流动、热应力分析),微纳尺度传递,超临界流体流动与传热

讲授课程
1、 本科生课程:太阳能热利用原理与技术、太阳能热利用课程设计

2、 研究生课程:能源系统工程(英文)

学术成果
1. 科研项目

1)湖南省自然科学基金项目. 太阳能接收器内熔盐纳米流体粒子微运动及高温传热特性研究.

2)湖南省自然科学基金项目. 超临界CO2布雷顿循环太阳能发电系统及其高效集热机理研究.

3)流程工业节能技术湖南省重点实验室开放研究基金. 超临界CO2布雷顿循环太阳能热发电系统性能研究与优化.
4)美国通用汽车公司合作项目. Modeling of Compression Molding and Molding-Induced Distortion of Long Fiber Thermoplastic Composites.
5)美国通用汽车公司合作项目,Modeling and Characterization of Weld Discrepancies and Microstructures in Laser Brazing and Welding of Aluminum Alloys for Automotive Applications.
6)中央高;究蒲幸滴穹炎ㄏ钭式鹱手钅. 可再生能源建筑关键技术研究.

2. 科研论文

[1] Rao Z, Ou L, Wang Y, et al. A self-piercing-through riveting method for joining of discontinuous carbon fiber reinforced nylon 6 composite. Composite Structures, 2020:111841.

[2] Wang, Yaqiong; Rao, Zhenghua; Liu, Jiaxing, et al. An optimized control strategy for integrated solar and air-source heat pump water heating system with cascade storage tanks. ENERGY AND BUILDINGS, 2020, 210: 109766.

[3] Rao, Zhenghua; Xue, Tianchen; Huang, Kaixin; Liao, Shengming. Multi-objective optimization of supercritical carbon dioxide recompression Brayton cycle considering printed circuit recuperator design. ENERGY CONVERSION AND MANAGEMENT, 2019, 201: 112094.

[4] Liu, Xiao-jun; Liao, Sheng-ming; Rao, Zheng-hua. An input-output model for energy accounting and analysis of industrial production processes: a case study of an integrated steel plant. JOURNAL OF IRON AND STEEL RESEARCH INTERNATIONAL, 2018, 25(5): 524-538

[5] Li, Min; Zhou, Cheng; Rao, Zhenghua. Hourly 50-year simulations of ground-coupled heat pumps using high-resolution analytical models. ENERGY CONVERSION AND MANAGEMENT, 2019, 193: 15-24.

[6] Chen, Rui; Rao, Zhenghua; Liao, Shengming. Determination of key parameters for sizing the heliostat field and thermal energy storage in solar tower power plants. ENERGY CONVERSION AND MANAGEMENT, 2018, 177: 385-394

[7] J.W. Liu, Z.H. Rao, S.M. Liao, H.L. Tsai. Numerical investigation of weld pool behaviors and ripple formation for a moving GTA welding under pulsed currents, International Journal of Heat and Mass Transfer, 2015, 91, 990-1000.

[8] Yuqiang Li,Gang Liu,Zhenghua Rao,Shengming Liao,Field synergy principle analysis for reducing natural convection heat loss of a solar cavity receiver,Renewable Energy,2015,75:257-265.

[9] Yuqiang Li,Shengming Liao,Zhenghua Rao,Gang Liu,A dynamic assessment based feasibility study of concentrating solar power in China,Renewable Energy,2014,69:34-42.

[10] Z.H. Rao, S.M. Liao. A numerical investigation of turbulent convective heat transfer of supercritical CO2 in vertical mini tubes,Progress in Computational Fluid Dynamics,2014,14(3):166-176.

[11] J.W. Liu, Z.H. Rao, S.M. Liao, P-C Wang. Modeling of transport phenomena and solidification cracking in laser spot bead-on-plate welding of AA6063-T6 alloy. Part I—the mathematical model. International Journal of Advanced Manufacturing Technology, 2014, 73(9-12):1705-1716.

[12] J.W. Liu, Z.H. Rao, S.M. Liao, P-C Wang. Modeling Of Transport Phenomena And Solidification Cracking In Laser Spot Bead-On-Plate Welding Of Aa6063-T6 Alloy. Part II—Simulation Results And Experimental Validation[J]. International Journal of Advanced Manufacturing Technology, 2014, 74(1-4):285-296.

[13] Z.H. Rao, J.W. Liu, P-C Wang, Y.X. Li, S.M. Liao. Modeling of Cold Metal Transfer Spot Welding of AA6061-T6 Aluminum Alloy and Galvanized Mild Steel. Journal of Manufacturing Science & Engineering, 2014, 136(5):2729-2737.

[14] Z.H. Rao, J. Zhou, H.L. Tsai. Determination of equilibrium wire-feed-speeds for stable gas metal arc welding. International Journal of Heat and Mass Transfer, 2012, 54, 55 (2012) 6651–6664.

[15] X. L. Cao, Z. H. Rao, S. M. Liao. Laminar convective heat transfer of supercritical CO2 in horizontal miniature circular and triangular tubes. Applied Thermal Engineering, 2011, 31(14-15): 2374-2384.

[16] Z.H. Rao, S.M. Liao, H.L. Tsai. Modeling of hybrid laser-GMA welding: A review and challenges. Science and Technology of Welding and Joining, 2011, 16(4): 300-305.

[17] Z.H. Rao, J. Hu, S.M. Liao, H.L. Tsai. Modeling of the transport phenomena in GMAW using argon–helium mixtures. Part I – The arc. International Journal of Heat and Mass Transfer, 2010, 53(25/26), 5707–5721.

[18] Z.H. Rao, J. Hu, S.M. Liao, H.L. Tsai. Modeling of the transport phenomena in GMAW using argon–helium mixtures. Part II – The metal. International Journal of Heat and Mass Transfer, 2010, 53(25/26), 5722–5732.

[19] Z.H. Rao, S.M. Liao, H.L. Tsai. Effect of Shielding Gas Composition on Arc Plasma and Metal Transfer in Gas Metal Arc Welding. Journal of Applied Physics, 2010, 107(4), 044902.

[20] Z.H. Rao, J. Zhou, S.M. Liao, H.L. Tsai. Three-dimensional modeling of transport phenomena and their effect on the formation of ripples in gas metal arc welding. Journal of Applied Physics, 2010, 107(5), 054905.

[21] C.H. Lin, Z.H. Rao, L. Jiang, W.J. Tsai, P.H. Wu, C.W. Chien, H.L. Tsai. Investigations of femtosecond–nanosecond dual-beam laser ablation of dielectrics. Optics Letters, 2010, 35(14): 2490-2492.

[22] Z.H. Rao, S.M. Liao, H.L. Tsai, P. C. Wang, R. Stevenson. Mathematical Modeling of Electrode Cooling in Resistance Spot Welding. Welding Journal, 2009, 88(5): 111s-119s.

[23] Z.H. Rao, J. Hu, S.M. Liao, H.L. Tsai. Determination of Equilibrium Wire Feed Speeds for a Stable GMAW Process. In: 2008 ASME International Mechanical Engineering Congress and Exposition (Proceedings of IMECE2008), 2008, Boston, Massachusetts, USA. 67799.

[24] Z.H. Rao, J. Hu, S.M. Liao, H.L. Tsai. Study the Shielding Gas Effect on the Metal Transfer and Weld Pool Dynamics in GMAW. In: 2009 ASME Summer Heat Transfer Conference, July, 2009, San Francisco, California USA. 88407.

[25] Z.H. Rao, C.H. Lin, L. Jiang, W.J. Tsai, P.H. Wu, C.W. Chien, H.L. Tsai. Investigations of Femtosecond-Nanosecond Dual-Beam Laser Ablation of Dielectrics. In: ASME 2009 2nd Micro/Nanoscale Heat & Mass Transfer International Conference (Proceedings of MNHMT2009), December, 2009, Shanghai, China. 18188.

[26] C.H. Lin, Z.H. Rao, L. Jiang, W.J. Tsai, P.H. Wu, C.W. Chien, H.L. Tsai. Enhancement of ablation efficiency by a femto/nano-second dual-beam micromachining system. In: Proceedings of the Society of Photo-Optical Instrumentation Engineers (SPIE), Vol. 7585, January, 2010, San Francisco, California, USA. 758501.

[27] Z.H. Rao, J. Hu, S.M. Liao, H.L. Tsai. Study the Shielding Gas Effects on Transport Phenomena in GMAW Arc. In: The 20th International Symposium on Transport Phenomena, July, 2009, Victoria BC, Canada.

[28] 刘敏; 饶政华; 刘继雄; 廖胜明. 能流分布对超临界CO2腔式太阳能吸热器热-力特性的影响. 太阳能学报, 2020, 41 (4): 92-98

[29] 黄凯欣,饶政华,廖胜明.超临界CO2太阳能吸热器许用能流密度研究. 太阳能学报,2018,39(1): 44-50.

[30] 饶政华,廖胜明. 新能源科学与工程专业课程体系研究. 中国大学教学,2015年第3期:44-47.

[31] 高如超,饶政华,李芸霄,廖胜明. 脉冲GTAW熔池行为和焊缝成形的三维数值模拟 [J]. 中南大学学报, 2013, 44(11): 4712-4719.

[32] 刘仙萍, 饶政华, 廖胜明. 太阳能光伏/光热复合集热器能量转换性能的数值模拟[J]. 中南大学学报:自然科学版, 2013, 44(6):2554-2560.

[33] 李大鹏, 饶政华, 张翔等. 长沙地区多功能地源热泵系统的模拟与分析[J]. 中南大学学报:自然科学版, 2013, 44(3).

[34] 南剑, 饶政华, 刘骁浚等. 基于系统节能的冶金过程监测与模拟技术研究进展[J]. 过程工程学报, 2014, (4).

[35] 饶政华, 廖胜明. 二氧化碳微通道气体冷却器的数值仿真与结构优化.化工学报, 2005, 56(9):1721-1726.

[36] 饶政华, 廖胜明. 超临界二氧化碳管内湍流流动和传热的数值模拟. 流体机械, 2005, 33(1): 71-75.

[37] 饶政华, 廖胜明. 超临界二氧化碳水平细微管内层流流动与换热的数值模拟. 热科学与技术, 2005, 4(2):113-117.

[38] 饶政华, 廖胜明. 超临界CO2在水平三角细微管内层流对流换热的数值模拟. 制冷学报, 2006, 27 (5): 44-47.


3. 授权专利

[1] CN110822928A 用于炭素单体炉的蓄热式余热利用装置、系统及控制方法

[2] CN110428302A 一种区域分布式热水共享系统及控制方法

[3] CN108124408B 基于热管技术的数据中心浸没式液冷机柜

[4] CN108882658A 浸没式液冷和循环风冷结合的服务器机柜散热系统

[5] CN201210063648.4 平板式太阳能热水器装置

[6] CN201510742601.4 太阳能集热器和空气源热泵联合供热水系统及控制方法

[7] CN201210125709.5 平板热管太阳能光伏光热复合集热器及其制作工艺

[8] CN201310098915.6 新风换气机用平板全热换热芯体

[9] CN201310098875.5 新风换气机用导板膜式全热换热芯体

[10] CN201410725581.5 干衣机及其控制方法

[11] CN201410802371.1 热泵热水机

[12] CN201410802832.5 空气源热泵热水机



学术奖励
1、2012年湖南省优秀博士学位论文

2、2010年湖南省自然科学优秀学术论文二等奖

3、2014年第七届全国大学生节能减排社会实践与科技竞赛一等奖(指导教师)

4、2017年第十届全国大学生节能减排社会实践与科技竞赛二等奖(指导教师)

5、2019年第十二届全国大学生节能减排社会实践与科技竞赛一等奖(指导教师)

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