| 射流孔分布对径流涡轮背盘冷效均匀性的改善 |
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| 引用本文: | 马超,李延昭,卢康博,苏益龙,张健健.射流孔分布对径流涡轮背盘冷效均匀性的改善[J].热科学与技术,2022,21(2):114-122. |
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| 作者姓名: | 马超 李延昭 卢康博 苏益龙 张健健 |
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| 作者单位: | 潍坊学院 机电与车辆工程学院 山东省潍坊市,机械工业部内燃机增压系统重点实验室,机械工业部内燃机增压系统重点实验室,机械工业部内燃机增压系统重点实验室,机械工业部内燃机增压系统重点实验室 |
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| 摘 要: | 由于可靠性和成本限制,微型燃气轮机涡轮冷却问题尚未形成成熟的解决方案。本文提出了一种简单、高可靠性的径流涡轮背盘冲击冷却技术,并针对由于涡壳几何周向不均匀导致的涡轮背盘冷效不均匀的问题,采用射流孔周向非均匀布置措施对其进行了改善。研究结果表明,在涡舌附近加密射流孔,使其附近对应的冷效极大和极小值均明显提升,冷效均匀性最高改善17.9%。不同非均布射流孔方案对涡轮背盘平均冷效及涡轮整机膨胀比的影响可忽略,对涡轮整机的效率影响不超过0.5%。
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| 关 键 词: | 微型燃气轮机,径流涡轮,射流冷却,冷却效率,均匀性 |
| 收稿时间: | 2020/6/29 0:00:00 |
| 修稿时间: | 2021/7/15 0:00:00 |
The uniformity improvement of back-disc impingement cooling performance of a radial turbine with different distribution strategies of jet-holes |
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| MA Chao,LI Yanzhao,LU kangbo,SU Yilong and ZHANG Jianjian.The uniformity improvement of back-disc impingement cooling performance of a radial turbine with different distribution strategies of jet-holes[J].Journal of Thermal Science and Technology,2022,21(2):114-122. |
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| Authors: | MA Chao LI Yanzhao LU kangbo SU Yilong and ZHANG Jianjian |
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| Affiliation: | School of Mechanical-electronic and Vehicle Engineering,Weifang University,Key Laboratory of Internal Combustion Engine Turbocharging System,Ministry of Machinery Industry,Key Laboratory of Internal Combustion Engine Turbocharging System,Ministry of Machinery Industry,Key Laboratory of Internal Combustion Engine Turbocharging System,Ministry of Machinery Industry,Key Laboratory of Internal Combustion Engine Turbocharging System,Ministry of Machinery Industry |
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| Abstract: | Due to reliability and cost constraints, the problem of micro gas turbine cooling has not yet formed a mature solution. In this paper, a simple and highly reliable back-disc impingement cooling technology is proposed, and in order to solve the problem of cooling performance uniformity of turbine back-disc caused by the uneven circumferential geometry of turbine volute channel, the circumferential non-uniform arrangement of jet holes is adopted to improve the effect. Results showed that: the maximum and minimum values of the local cooling efficiency were significantly increased by concentrating jet holes near the volute tongue, and the maximum non-uniformity of the cooling performance was improved by 17.9%. The influence of concentrating jet holes near the volute tongue strategy on the averaged cooling efficiency of the turbine back-disc and the expansion ratio of the turbine stage can be ignored, and the effect on the aerodynamic efficiency of the turbine stage is less than 0.5%. |
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| Keywords: | Micro gas turbine Radial turbine Impingement cooling Cooling efficiency uniformity |
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