科研成果

英文期刊论:

[9]  Zhou Weilun, Deng Qinghua*, He Wei, He Juan, Feng Zhenping. Conjugate Heat Transfer Analysis for Composite Cooling Structure Using a Decoupled Method. International Journal of Heat and Mass Transfer, 2019, 149(2020):1-16; https://doi.org/10.1016/j.ijheatmasstransfer.2019.119200.
[8]  Deng Qinghua*, Jiang Yu, Hu Zhifeng, Feng Zhenping. Condensation and Expansion Characteristics of Water Steam and Carbon Dioxide in a Laval Nozzle. Energy, 2019, 175(2019): 694-703; https://doi.org/10.1016/j.energy.2019.03.108.
[7]  Qi Wenjiao, Deng Qinghua*, Chi Zhinan, Hu Lehao, Yuan Qi, Feng Zhenping. Influence of Disc Tip Geometry on the Aerodynamic Performance and Flow Characteristics of Multichannel Tesla Turbines. Energies, 2019, 12(3), 572; https://doi.org/10.3390/en12030572.
[6]  He Wei, Deng Qinghua*, Zhou Weilun, Gao Tieyu, Feng Zhenping. Film Cooling and Aerodynamic Performances of a Turbine Nozzle Guide Vane with Trenched Cooling Holes. Applied Thermal Engineering, 2019, 150(2019):150-163; https://doi.org/10.1016/j.applthermaleng.2019.01.002.
[5]  Qi Wenjiao, Deng Qinghua*, Jiang Yu, Yuan Qi, Feng Zhenping. Disc Thickness and Spacing Distance Impacts on Flow Characteristics of Multichannel Tesla Turbines. Energies, 2019, 12(1), 44; https://doi.org/10.3390/en12010044.
[4]  Qi Wenjiao, Deng Qinghua*, Jiang Yu, Feng Zhenping, Yuan Qi. Aerodynamic Performance and Flow Characteristics Analysis of Tesla Turbines with Different Nozzle and Outlet Geometries. Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 2018; https://doi.org/10.1177/0957650918785312.
[3]  Deng Qinghua*, Shao Shuai, Fu Lei, Luan Haifeng, Feng Zhenping. An Integrated Design and Optimization Approach for Radial Inflow Turbines - Part I: Automated Preliminary Design. Applied Sciences-Basel, 2018, 8(11), 2038, https://doi.org/10.3390/app8112038.
[2]  Deng Qinghua*, Shao Shuai, Fu Lei, Luan Haifeng, Feng Zhenping. An Integrated Design and Optimization Approach for Radial Inflow Turbines - Part II: Multidisciplinary Optimization Design. Applied Sciences-Basel, 2018, 8(11), 2030; https://doi.org/10.3390/app8112030.
[1]  Deng Qinghua*, Wang Dian, Zhao Hang, Huang Wenting, Shao Shai, Feng Zhenping. Study on Performances of Supercritical CO2 Recompression Brayton Cycles with Multi-objective Optimization. Applied Thermal Engineering, 2017, 114(2017):1335-1342.
 

国际会议论文:

[9] He Wei, Deng Qinghua*, Yang Guoying, Feng Zhenping. Effects of Turning Angle and Turning Internal Radius on Channel Impingement Cooling for a Novel Internal Cooling Structure. ASME Turbo Expo 2020, Paper No.: GT2020-16115.

[8] He Juan, Deng Qinghua*, Zhou Weilun, He Wei, Gao Tieyu, Feng Zhenping. Conjugate Heat Transfer Characteristics of Double Wall Cooling on a Film Plate with Gradient Thickness. ASME Turbo Expo 2020, Paper No.: GT2020-14275. 

[7] He Wei, Deng Qinghua*, He Juan, Gao Tieyu, Feng Zhenping. Heat Transfer and Flow Mechanisms of Jetting Deflection in a Novel Bended Channel Cooling for Gas Turbine Blades. 5th International Workshop on Heat/Mass Transfer Advances for Energy Conservation and Pollution Control, Paper No.: IWHT2019-53.

[6] He Wei, Deng Qinghua*, He Juan, Gao Tieyu, Feng Zhenping. Effects of Jetting Orifice Geometry Parameters and Mach Number on Bended Channel Cooling for a Novel Internal Cooling Structure. ASME Turbo Expo 2019, Paper No.: GT2019-90421.

[5] Zhou Weilun, Deng Qinghua*, He Wei, Feng Zhenping. Effects of Hole Pitch to Diameter Ratio P/D of Impingement and Film Hole on Laminated Cooling Effectiveness. ASME Turbo Expo 2017, Paper No.: GT2017-64566.

[4] Zhou Weilun, Deng Qinghua*, Feng Zhenping. Conjugate Heat Transfer Analysis for Laminated Cooling Effectiveness, Part A: Effects of Surface Curvature. ASME Turbo Expo 2016, Paper No.: GT2016-57243.

[3] Deng Qinghua*, Zhou Weilun, Feng Zhenping. Conjugate Heat Transfer Analysis for Laminated Cooling Effectiveness, Part B: Effects of Film Hole Incline Angle. ASME Turbo Expo 2016, Paper No.: GT2016-57256.

[2] Qi Wenjiao, Deng Qinghua*, Feng Zhenping, Qi Yuan. Influence of Disc Spacing Distance on the Aerodynamic Performance and Flow Field of Tesla Turbines. ASME Turbo Expo 2016, Paper No.: GT2016-57971.

[1] Qi Wenjiao, Deng Qinghua*, Feng Zhenping. Improvement of a Theoretical Analysis Method for Tesla Turbines. ASME Turbo Expo 2013, Paper No.: GT2013-95425. 

 

授权专利:

[7] 邓清华*, 齐文娇, 丰镇平. 一种小型超高速原动机的功率测量装置及方法[P]. 中国发明专利, 专利号201510377068.6. 申请日2015.6.30, 授权公告日2018.2.27.

[6] 邓清华*, 丰镇平. 一种提高向心涡轮性能的叶轮叶片顶部结构[P]. 中国发明专利, 专利号ZL200710019173.8, 申请日2007.11.23, 授权公告日2012.7.25.

[5] 邓清华*, 丰镇平, 李军. 带有隔热与冷却作用的高温燃气密封结构[P]. 中国发明专利, 专利号ZL200410073277.3, 申请日2004.11.15, 授权公告日2007.1.31.

[4] 邓清华*, 蒋宇, 李军, 丰镇平. 超临界二氧化碳布雷顿循环动力部件冷却密封隔热系统. 中国实用新型专利, 专利号ZL201821014675.1, 申请日2018.6.28, 授权公告日2019.3.1.

[3] 邓清华*, 齐文娇, 丰镇平, 袁奇. 盘式透平的轮盘结构[P]. 中国实用新型专利, 专利号ZL201820476182.3, 申请日2018.4.5, 授权公告日2018.9.25.

[2] 邓清华*, 齐文娇, 丰镇平, 袁奇. 盘式透平的喷嘴结构[P]. 中国实用新型专利, 专利号ZL201820477098.3, 申请日2018.4.5, 授权公告日2018.9.25.

[1] 邓清华*, 周玮伦, 丰镇平. 一种三元流离心风机叶轮叶片结构[P]. 中国实用新型专利, 专利号ZL201620139050.X, 申请日2016.2.24, 授权公告日2016.8.10.

 

国内期刊论文:

[8] 何娟邓清华*, 高铁瑜丰镇平. 周向角和直径比对切向双旋流冷却流动与传热特性的作用机理. 西安交通大学学报, 2020, 54(10):xxx-xxx.

[7]  邓清华*, 胡乐豪, 石志昊, 丰镇平. 进汽参数对拉伐尔喷管中水蒸气自发凝结的影响研究. 西安交通大学学报, 2020, 54(10): xxx-xxx.

[6]  邓清华*, 胡乐豪, 李军, 丰镇平. 超临界二氧化碳发电技术现状及挑战. 热力透平, 2019, 48(3):159-165.

[5]  邓清华*, 胡乐豪, 李军, 丰镇平. 大型发电技术发展现状及趋势. 热力透平, 2019, 48(3):175-181.

[4]  邓清华*, 颜晓江丰镇平基于多能互补的分布式能源系统实验教学平台实验技术与管理, 2019, 36(5): 215-219.

[3]  邓清华*, 蒋宇, 李军, 丰镇平. 超临界CO2动力循环实验关键技术研究: 循环方案. 热力透平, 2018, 47(2): 93-98+144.

[2]  邓清华*, 蒋宇, 李军, 丰镇平. 超临界CO2动力循环实验关键技术研究: 动力部件. 热力透平, 2018, 47(2): 99-104.

[1]  齐文娇, 邓清华*, 丰镇平, 袁奇. 盘式透平数值方法验证及流动特性分析. 工程热物理学报, 2015, 36(10): 2122-2126.

 

论著:

 [1]  丰镇平, 李祥晟, 邓清华, 徐文文, 谭春青, 高庆, 张前社, 单晓明, 曲丰荣. 《微型燃气轮机应用  安全》. 中华人民共和国国家标准, GB/T38180-2019/ISO 19372:2015, 发布日期: 2019.10.18, 实施日期: 2020.5.1.