LU Wei-gang, DONG Lei, WANG Zhao-fei, LU Lin-guang. Cross influence of discharge and circulation on head loss of conduit of pump system with low head[J]. Applied Mathematics and Mechanics, 2012, 33(12): 1431-1441. doi: 10.3879/j.issn.1000-0887.2012.12.005
Citation: LU Wei-gang, DONG Lei, WANG Zhao-fei, LU Lin-guang. Cross influence of discharge and circulation on head loss of conduit of pump system with low head[J]. Applied Mathematics and Mechanics, 2012, 33(12): 1431-1441. doi: 10.3879/j.issn.1000-0887.2012.12.005

Cross influence of discharge and circulation on head loss of conduit of pump system with low head

doi: 10.3879/j.issn.1000-0887.2012.12.005
  • Received Date: 2012-08-04
  • Rev Recd Date: 2012-11-03
  • Publish Date: 2012-12-15
  • The relationship between the head loss and the discharge and circulation of the conduit of a pump system with low head is an important problem with an obvious influence on the improvement of its hydraulic performance. The velocity circulation from the pump guide vane makes the relationship more complicated, which has to be understood comprehensively. The results indicate that, under the condition of zero circulation, the head loss of the inlet and outlet conduits is in proportion to the square of discharge. Under the condition that the Reynolds number is satisfied with the resistant square area, the conduit loss is in proportion to the square of discharge for the similar working points with different speeds in a certain rotational speed range, indicating that the pump system efficiency is constant. The outlet conduit loss of design discharge for a pump system with low head depends on the velocity circulation from the guide vane exit, and the relationship between the loss and the circulation is an open curve with an upward direction, meaning that there is an optimal circulation for the loss. Under the condition of various working points for a pump system with low head, the head loss of the outlet conduit is under the cross influence of both the discharge and the circulation. As a result, the relationship between the head loss and the discharge is almost linear, and the mechanism needs to be further studied.
  • loading
  • [1]
    吴持恭. 水力学 [M]. 上册.北京: 高等教育出版社, 2003: 81-83; 143-161.(WU Chi-gong. Hydraulics[M]. Vol 1.Beijing: Higher Education Press, 2003: 81-83; 143-161.(in Chinese)) 
    [2]
    陆林广, 祝婕, 冷豫, 吴开平. 泵站进水流道模型水力损失的测试[J]. 排灌机械, 2005, 23(4):1417(LU Lin-guang, ZHU Jie, LENG Yu, WU Kai-ping. Measurement for hydraulic loss of inlet conduit of pumping station[J].Drainage and Irrigation Machinery, 2005, 23(4): 14-17. (in Chinese))
    [3]
    陆林广, 吴昌新, 纪建中, 冷豫, 吴开平, 王军. 灯泡贯流泵流道模型水力损失的测试[J]. 南水北调与水利科技, 2007, 5(1): 8284.(LU Lin-guang, WU Chang-xin, JI Jian-zhong, LENG Yu,WU Kai-ping,WANG Jun. Measurement for hydraulic loss of model conduit of bulb tubular pump[J].South to North Water Transfers and Water Science & Technology, 2007, 5(1): 82-84. (in Chinese))
    [4]
    陈伟, 陆林广, 王刚, 董雷. 轴流泵运行工况对叶轮室进口预旋的影响[J]. 水力发电学报, 2012, 31(1): 213-219.(CHEN Wei, LU Lin-guang, WANG Gang, DONG Lei. Influence of axialflow pump operating condition on the preswirl at impeller inlet[J]. Journal of Hydroelectric Engineering, 2012, 31(1): 213-219. (in Chinese))
    [5]
    中水北方勘测设计研究有限责任公司工程技术研究院. 山东省南水北调长沟泵站水泵装置模型试验研究报告[R]. 天津: 中水北方勘测设计研究有限责任公司, 2009.(Engineering Technology Institute of Beifang Investigation, Design & Research CO LTD. Report on the pump system model test of the Changgou pumping station in the Shandong southtonorth water diversion[R]. Tianjin: Beifang Investigation, Design & Research CO LTD, 2009. (in Chinese))
    [6]
    中水北方勘测设计研究有限责任公司工程技术研究院.南水北调工程山东省邓楼泵站水泵装置模型验收试验报告[R]. 天津: 中水北方勘测设计研究有限责任公司, 2009.(Engineering Technology Institute of Beifang Investigation, Design & Research CO LTD. Report on the pump system model test of the Denglou pumping station in the Shandong southtonorth water diversion[R]. Tianjin: Beifang Investigation, Design & Research CO LTD, 2009. (in Chinese))
    [7]
    中水北方勘测设计研究有限责任公司工程技术研究院. 南水北调东线一期工程邳州泵站竖井贯流水泵装置模型试验报告[R]. 天津: 中水北方勘测设计研究有限责任公司, 2010.(Engineering Technology Institute of Beifang Investigation, Design & Research CO LTD. Report on the shaft tubular pump system model test of the Pizhou pumping station in the first stage of eastern route of southtonorth water diversion project[R]. Tianjin: Beifang Investigation, Design & Research CO LTD, 2010. (in Chinese))
    [8]
    GB/T 181492000. 离心泵、混流泵和轴流泵 水力性能试验规范 精密级[S].(GB/T 181492000. Centrifugal, mixed flow and axial pumps—code for hydraulic performance tests—precision class[S]. (in Chinese))
    [9]
    梁金栋, 陆林广, 徐磊, 陈伟, 王刚.轴流泵装置导叶出口水流速度环量对出水流道水力损失的影响[J].农业工程学报, 2012, 28(1):5560.(LIANG Jin-dong, LU Lin-guang, XU Lei, CHEN Wei, WANG Gang. Influence of flow velocity circulation at guide vane outlet of axialflow pump on hydraulic loss in outlet conduit[J]. Transactions of CSAE, 2012, 28(1): 55-60. (in Chinese))
    [10]
    ANSI/HI 9.81998. American National Standard for Pump Intake Design[S].
    [11]
     
    [12]
    陆林广, 吴开平, 冷豫, 祝婕. 泵站出水流道模型水力损失的测试[J]. 排灌机械, 2005, 23(5): 2326.(LU Lin-guang, WU Kai-ping, LENG Yu, ZHU Jie. Measurement for hydraulic loss of outlet conduit of pumping station[J]. Drainage and Irrigation Machinery, 2005, 23(5): 23-26. (in Chinese))
    [13]
    LI Yao-jun, WANG Fu-jun. Numerical investigation of performance of an axial-flow pump with inducer[J]. Journal of Hydrodynamics, Ser B, 2007, 19(6): 705-711.
    [14]
    ZHANG De-sheng, SHI Wei-dong, CHEN Bin, GUAN Xing-fang. Unsteady flow analysis and experimental investigation of axial-flow pump[J]. Journal of Hydrodynamics, 2010, 22(1): 35-43.
    [15]
    Oh H W. Design parameter to improve the suction performance of mixedflow pump impeller[J]. Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 2010, 224(6): 881-887.
    [16]
    Kishor Nand, Singh S P, Raghuvanshi A S. Dynamic simulations of hydro turbine and its state estimation based LQ control[J]. Energy Conversion and Management, 2006, 47(18/19): 3119-3137.
    [17]
    Barrio R, Fernandez J, Blanco E, Parrondoa J. Estimation of radial load in centrifugal pumps using computational fluid dynamics[J]. European Journal of MechanicsB/Fluids, 2011, 30(3): 316-324.
    [18]
    Blazek J.Computational Fluid Dynamics: Principles and Applications[M].2nd ed. Netherlands: Elsevier Ltd, 2005: 227270.
    [19]
    Rodi W. Turbulence Models and Their Application in Hydraulics Experimental and Mathematical Fluid Dynamics[M]. Delft: IAHR Section on Fundamentals of Division Ⅱ, 1980: 44-46.
    [20]
    冯汉民. 水泵学[M]. 北京: 水利水电出版社, 1991: 193-194. (FEN Hanmin. Pump[M]. Beijing: China Water Power Press, 1991: 193-194. (in Chinese))
  • 加载中

Catalog

    通讯作者: 陈斌, bchen63@163.com
    • 1. 

      沈阳化工大学材料科学与工程学院 沈阳 110142

    1. 本站搜索
    2. 百度学术搜索
    3. 万方数据库搜索
    4. CNKI搜索

    Article Metrics

    Article views (1934) PDF downloads(1025) Cited by()
    Proportional views
    Related

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return