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论文:2018,Vol:36,Issue(5):807-815 |
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引用本文: |
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符江锋, 李华聪, 樊丁, 申文博, 刘显为. 基于一元流动的航空离心泵综合损失模型与效率预测[J]. 西北工业大学学报 |
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Fu Jiangfeng, Li Huacong, Fan Ding, Shen Wenbo, Liu Xianwei. Modeling and Efficiency Prediction of Aeroengine Centrifugal Pump Integrated Loss Model Based on One-Dimensional Flow[J]. Northwestern polytechnical university |
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| 基于一元流动的航空离心泵综合损失模型与效率预测 |
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| 符江锋1, 李华聪1, 樊丁1, 申文博2, 刘显为1 |
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1. 西北工业大学 动力与能源学院, 陕西 西安 710072;
2. 中国航发动力控制研究所, 江苏 无锡 214063 |
| 摘要: |
| 给出了一种全面考虑离心泵内各种损失形式的综合损失模型的建立方法,通过深入分析离心泵吸入室、叶轮、无叶扩压室、蜗壳形集水室和出口扩散段在内的各通流部件几何结构及损失机理,结合一元流动理论分别建立离心泵的水力损失模型、容积损失模型、轮盘摩擦损失和机械损失模型,最终构建一个能够表征12个离心泵主要设计参数与泵效率间的综合损失模型。基于所建立的损失模型进行了某航空燃油离心泵的性能预测研究,并将损失模型预测结果与试验数据、CFD仿真数据进行了对比研究。仿真结果表明:采用损失模型的效率预测值与该型航空离心泵试验数据相对误差小于2.8%,在设计工况下,CFD仿真得到的离心泵效率与试验数据相比误差在4.4%以内,损失模型的预测效率相比较CFD预测值,准确性高于CFD方法1.6%,表明所建立损失模型预测效率精度优于CFD方法,能够用于准确的预测离心泵设计过程的工作效率。 |
| 关键词:
计算效率
流场
流量
可靠性分析
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| Modeling and Efficiency Prediction of Aeroengine Centrifugal Pump Integrated Loss Model Based on One-Dimensional Flow |
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| Fu Jiangfeng1, Li Huacong1, Fan Ding1, Shen Wenbo2, Liu Xianwei1 |
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1. School of Power and Energy, Northwestern Polytechnical University, Xi'an 710072, China;
2. Chinese Aeroengine Control Research Institute, Wuxi 214063, China |
| Abstract: |
| This paper was presented a method of integrated loss model by considering all kinds of loss type in centrifugal pumps. The geometric structure and loss mechanism of the flow parts in the centrifugal pump were analyzed, such as suction chamber, impeller, vaneless diffuser chamber, volute type water collecting chamber and outlet diffusion section. The hydraulic loss model, volume loss model, friction loss and mechanical loss model of centrifugal pump were established respectively by combining the flow theory. Finally, an integrated loss model of centrifugal pump was constructed, which can establish the relationship between the 12 main design parameters and pump efficiency of the centrifugal pump. Then the performance prediction of an aeroengine fuel centrifugal pump was carried out based on the loss model, and the loss model predictions were compared with the experimental data and CFD simulation performance prediction data. Simulation results show that:The efficiency predicted value relative error of centrifugal pump is less than 2.8% between the loss model and the experimental data. The computational efficiency of CFD is less than 4.4% compared with the experimental data in the design condition. The relative error is about 1.6% between the CFD method and the loss model which shows that the loss model predicts efficiency accuracy is better than the CFD method. It shows that this method can be used to predict the efficiency performance of centrifugal pump under design process. |
| Key words:
computational efficiency
flow field
flow rate
reliability analysis
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| 收稿日期: 2017-09-12
修回日期:
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| DOI: |
| 基金项目: 航空科学基金(20150653006)与中央高校基本科研业务费专项资金(G2017KY0003)资助 |
| 通讯作者:
Email: |
| 作者简介: 符江锋(1984-),西北工业大学助理研究员,主要从事航空发动机燃油泵仿真研究。
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参考文献: |
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[1] 刘尚勤, 王磊. 航空发动机的一种新型主燃油泵设计[J]. 航空发动机, 2003, 29(2):5-7 Liu Shangqing, Wang Lei. Design of a New Main Fuel Pump for Aeroengine[J]. Aeroengine, 2003, 29(2):5-7(in Chinese)
[2] Wang C, Shi W, Wang X, et al. Optimal Design of Multistage Centrifugal Pump Based on the Combined Energy Loss Model and Computational Fluid Dynamics[J]. Applied Energy, 2017, 187:10-26
[3] Shi Weidong, Zhou Ling, Lu Weigong, et al. Numerical Prediction and Performance Experiment in a Deep-Well Centrifugal Pump with Different Impeller Outlet Width[J]. Chinese Journal of Mechanical Engineering, 2013, 26(1):46-52
[4] Zhao B, Yuan S, Liu H, et al. Three-Dimensional Coupled Impeller-Volute Simulation of Flow in Centrifugal Pump and Performance Prediction[J]. Chinese Journal of Mechanical Engineering, 2006, 19(1):59-62
[5] Yuan Minggao, Liu Houlin, Wang Yong, Wang Kai. Numerical Research on Performance Prediction for Centrifugal Pumps[J]. Chinese Journal of Mechanical Engineering, 2010, 23(1):21-26
[6] 何希杰, 朱广奇, 劳学苏. 遗传算法在离心泵优化设计中的应用[J]. 排灌机械工程学报, 2008,26(2):40-44 He Xijie, Zhu Guangqi, Lao Xuesu. Application of Genetic Algorithm in Optimal Design of Centrifugal Pump[J]. Drainage & Irrigation Machinery, 2008, 26(2):40-44(in Chinese)
[7] 黄思, 宋志光, 张雪娇,等. 离心泵多目标多变量优化设计模型实用化研究[J]. 中国农村水利水电, 2014(5):130-132 Huang Si, Song Zhiguang, Zhang Xuejiao, et al. A Practical Study of Multi-Objective and Multi-Variable Optimization Model for Centrifugal Pump Design[J]. China Rural Water & Hydropower, 2014(5):130-132(in Chinese)
[8] 杨军虎, 边中, 钟春林, 等. 基于水力损失计算的离心泵叶轮叶片出口角选择方法[J]. 西华大学学报, 2016,35(3):89-92 Yang Junhu, Bian Zhong, Zhong Chunlin, et al. Method for Selecting Centrifugal Pump Impeller Outlet Angle Based on Calculation of Centrifugal Pump Impeller's Hydraulic Loss[J]. Journal of Xihua University, 2016, 35(3):89-92(in Chinese)
[9] 谈明高, 刘厚林, 袁寿其,等. 离心泵出口角对能量性能影响的CFD研究[J]. 中国农村水利水电, 2008(11):104-106 Tan Minggao, Liu Houlin, Yuan Shouqi, et al. CFD Research on the Effect of Centrifugal Pump Outlet Angles on the Characteristics of Energy[J]. China Rural Water & Hydropower, 2008(11):104-106(in Chinese)
[10] 谈明高, 刘厚林, 袁寿其. 离心泵水力损失的计算[J]. 江苏大学学报, 2007,28(5):405-408 Tan Minggao, Liu Houlin, Yuan Shouqi. Calculation of Hydraulic Loss in Centrifugal Pumps[J]. Journal of Jiangsu University, 2007,28(5):405-408(in Chinese)
[11] Hou H, Zhang Y, Li Z. A Numerically Research on Energy Loss Evaluation in a Centrifugal Pump System Based on Local Entropy Production Method[J]. Thermal Science, 2017, 21(3):1287-1299
[12] Wang C, Shi W, Wang X, et al. Optimal Design of Multistage Centrifugal Pump Based on the Combined Energy Loss Model and Computational Fluid Dynamics[J]. Applied Energy, 2017, 187:10-26
[13] 李华. 基于水力损失模型的汽车水泵性能预测的研究[D]. 上海:上海交通大学, 2012 Li Hua. Research on Performance Prediction of Automo-Bile Water Pump Based on Hydraulic Loss Model[D]. Shanghai, Shanghai Jiaotong University, 2012(in Chinese)
[14] Tan L, Cao S, Gui S, et al. Modeling and Experiment of the Hydraulic Losses of Centrifugal Pump with Inlet Guide Vanes[J]. Journal of Hydroelectric Engineering, 2011, 30(4):191-196
[15] 王凯, 刘厚林, 袁寿其, 等. 离心泵多工况水力性能优化设计方法[J]. 排灌机械工程学报, 2012,30(1):20-24 Wang Kai, Liu Houlin, Yuan Shouqi, et al. Optimization Method for Hy-Draulic Performance of Centrifugal Pump at Multi-Operation Points[J]. Journal of Drainage & Irrigation Machinery Engineering, 2012, 30(1):20-24(in Chinese)
[16] Safikhani H, Khalkhali A, Farajpoor M. Pareto Based Multi-Objective Optimization of Centrifugal Pumps Using CFD, Neural Networks and Genetic Algorithms[J]. Engineering Applications of Computational Fluid Mechanics, 2011,5(1):37-48
[17] Ahmad N, Hamed S, Shahram D. The Comparison of Multi-Objective Particle Swarm Optimization and NSGAⅡ Algorithm:Applications in Centrifugal Pumps[J]. Engineering Optimization, 2011,43(10):1095-1113
[18] Omar A K, Khaldi A, Ladouani A. Prediction of Centrifugal Pump Performance Using Energy Loss Analysis[J]. Australian Journal of Mechanical Engineering, 2016, 15(3):1-12 |
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