[1]刘金生,丁平,杨澎,等.可调导叶对双向潜水贯流泵装置性能影响的试验分析[J].江苏水利,2023,(01):13-17,27.
 LIU Jinsheng,DING Ping,YANG Peng,et al.Experimental analysis of the influence of adjustable guide vane on the performance of bidirectional submersible tubular pump device[J].JIANGSU WATER RESOURCES,2023,(01):13-17,27.
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可调导叶对双向潜水贯流泵装置性能影响的试验分析()
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《江苏水利》[ISSN:1006-6977/CN:61-1281/TN]

卷:
期数:
2023年01期
页码:
13-17,27
栏目:
水利规划与设计
出版日期:
2023-01-30

文章信息/Info

Title:
Experimental analysis of the influence of adjustable guide vane on the performance of bidirectional submersible tubular pump device
文章编号:
1007-7839(2023)01-0013-0005
作者:
刘金生1丁平12杨澎1吕玉婷2杨帆2*
(1.扬州市水利工程建设中心,江苏 扬州225000;2.扬州大学水利科学与工程学院,江苏 扬州225009)
Author(s):
LIU Jinsheng1 DING Ping12 YANG Peng1 LYU Yuting2 YANG Fan2*
(1.Water Conservancy Project Construction Center of Yangzhou City, Yangzhou 225000, China;2.College of Hydraulic Science and Engineering, Yangzhou University, Yangzhou 225009, China)
关键词:
扬州闸泵站潜水贯流泵装置可调导叶模型试验
Keywords:
Yangzhou Sluice Pumping Station submersible tubular pump device adjustable guide vane model test
分类号:
TV698
文献标志码:
A
摘要:
为确保扬州闸泵站双向潜水贯流泵装置水力性能的优异性,采用物理模型试验方法测试了配有双可调导叶的双向潜水贯流泵装置的能量性能、空化性能和飞逸特性,并对比分析灯泡体位置对双向贯流泵装置水力性能的影响。结果表明:在排涝工况时泵装置采用后置灯泡体(HZ),引水工况为前置灯泡体(QZ)的技术方案。叶片安放角-2°时,扩散可调导叶的调节角20°下HZ泵装置效率为66.2%,流量为267.03 L/s;直可调导叶的调节角12°下QZ泵装置效率为64.1%,流量为250.46 L/s。在排涝工况最高扬程3.81 m时,叶轮的必需汽蚀余量为6.9 m;在引水工况最高扬程1.2 m时,叶轮的必需汽蚀余量为5.8 m。在校核电机和水泵强度时建议采用2.5倍额定转速,确保电机和水泵能在排涝工况381.42 r/min时运转2 min以上。
Abstract:
In order to ensure the superiority of the hydraulic performance of the bidirectional submersible tubular pump device in Yangzhou Sluice Pumping Station, the physical model test method was used to test the energy performance, cavitation performance and runaway characteristics of the bidirectional submersible tubular pump device with double adjustable guide vanes, and the influence of the position of the bulb body on the hydraulic performance of the bidirectional tubular pump device was compared and analyzed. The results show that : in the drainage conditions, the pump device adopts rear bulb (HZ), and the water diversion condition is front bulb (QZ). When the blade angle is -2°, the efficiency of the HZ pump device is 66.2 % and the flow rate is 267.03 L/s when the adjustment angle of the diffusion adjustable guide vane is 20°. The efficiency of QZ pump is 64.1 % and the flow rate is 250.46 L/s when the straight adjusting guide vane adjustable angle is 12°. When the maximum head of drainage is 3.81 m, the necessary cavitation margin of impeller is 6.9 m. When the maximum head of water diversion is 1.2 m, the necessary cavitation margin of the impeller is 5.8 m. When checking the strength of the motor and pump, it is recommended to use 2.5 times the rated speed to ensure that the motor and pump can operate for more than 2 minutes at 381.42 r/min under drainage conditions.

参考文献/References:

[1]陆伟刚,王东伟,施伟,等. 电动机前置和电动机后置潜水贯流泵装置水力性能比较[J]. 排灌机械工程学报,2020,38(4):325-331.
[2]夏臣智,成立,蒋红樱,等. 潜水贯流泵装置过流部件水力性能分析与优化[J]. 农业工程学报,2018,34(7):45- 51,301.
[3]YANG F,CHANG P C,LI C,et al. Numerical analysis of pressure pulsation in vertical submersible axial flow pumpdevice under bidirectional operation[J]. AIP Advances,2022,12(2):1-15.
[4]杨帆,金燕,刘超,等. 双向潜水贯流泵装置性能试验与数值分析[J]. 农业工程学报,2012,28(16):60-67.
[5]肖宇,叶晓琰,周岭,等. 基于叶轮子午面田口试验的潜水泵水力优化设计[J]. 水电能源科学,2020,38(11):164-168.
[6]程效锐,张雪莲. 基于正交设计法的潜水泵空间导叶水力优化[J]. 兰州理工大学学报,2020,46(5):61-67.
[7]陈斌,李贞彬,张华,等. 基于轮毂比的潜水轴流泵优化设计研究[J]. 中国给水排水,2019,35(23):91-95.
[8]钱忠东,王凡,王志远,等. 可调导叶式轴流泵马鞍区水力特性试验研究[J]. 排灌机械工程学报,2013,31(6):461-465.
[9]QIAN Z D,WANG Y,HUAI W X,et al. Numerical simulation of water flow in an axial flow pump with adjustable guide vanes[J]. Journal of Mechanical Sciences and Technology,2010,24(4):971-976.
[10]王凡,钱忠东,郭志伟,等. 可调导叶式轴流泵压力脉动数值分析[J]. 农业机械学报,2017,48(3):119-123.
[11]杨帆,刘超,汤方平,等. 带可调进口导叶轴流泵装置水力性能数值分析[J]. 农业机械学报,2014,45(5):51-58.
[12]Kim Youn Sung,Shim Hyeon Seok,Kim Kwang Yong. Effect of inlet guide vane and blade pitch angles on the performance of a submersible axial-flow pump[J]. Proceedings of the institution of Mechanical Engineers,Part A:Journal of Power and Energy,2021,235(4):718-732.
[13]周强,李宏坤,仲作文,等. 离心泵导叶流道进口处压力脉动研究[J]. 工程热物理学报,2020,41(7):1679-1684.
[14]水泵模型及装置模型验收试验规程 SL140—2006[S].

备注/Memo

备注/Memo:
收稿日期:2022-09-15
基金项目:国家自然科学基金项目(51609210,51779214);江苏省高校自然科学研究重大项目(20KJA570001);江苏省水利科技项目(2022074)
作者简介:刘金生(1970—),高级工程师,主要从事泵站管理与科研工作。E-mail:1978767372@qq.com
通信作者:杨帆(1985—),教授,硕士生导师,主要从事泵站工程的教学与科研。E-mail:fanyang@yzu.edu.cn
更新日期/Last Update: 2023-01-30