Theoretical Analysis on Hydraulic Transient Resulted by Sudden Increase of Inlet Pressure for Laminar Pipeline Flow

DENG Song-sheng; ZHOU Shao-qi; LIAO Zhen-fang; QIU Zheng-yang; ZENG Shun-peng

Article Contents

Article Navigation > Applied Mathematics and Mechanics > 2004 > 25(6): 614-620

DENG Song-sheng, ZHOU Shao-qi, LIAO Zhen-fang, QIU Zheng-yang, ZENG Shun-peng. Theoretical Analysis on Hydraulic Transient Resulted by Sudden Increase of Inlet Pressure for Laminar Pipeline Flow[J]. Applied Mathematics and Mechanics, 2004, 25(6): 614-620.

Citation:

PDF( 1908 KB)

Theoretical Analysis on Hydraulic Transient Resulted by Sudden Increase of Inlet Pressure for Laminar Pipeline Flow

1.
Department of Oil Supply Engineering, Chongqing College of Logistic Engineering, Chongqing 400016, P. R. China;

Received Date: 2002-06-23
Rev Recd Date: 2004-01-08
Publish Date: 2004-06-15

Abstract

Abstract

Hydraulic transient, which is resulted from sudden increase of inlet pressure for laminar pipeline flow, is studied. The partial differential equation, initial and boundary conditions for transient pressure were constructed, and the theoretical solution was obtained by variable-separation method. The partial differential equation, initial and boundary conditions for flow rate were obtained in accordance with the constraint correlation between flow rate and pressure while the transient flow rate distribution was also solved by variable-separation method. The theoretical solution conforms to numerical solution obtained by method of characteristics (MOC) very well.
- laminar flow,
- pipeline flow,
- hydraulic transient,
- theoretical solution

FullText(HTML)

References(9)

References

[1]	Wylie E Benjamin，Streeter Victor L.Fluid Transients[M].New York:FEB Press,1985,32—36.
[2]	邓松圣，蒲家宁.顺序输送水力瞬变全过程模拟[J].油气储运,1996,15(12):16—19.
[3]	蒲家宁.管道水击分析与控制[M].北京：机械工业出版社,1991.
[4]	Adamkowski Adam.Analysis of transient flow in pipes with expanding or contracting sections[J].Journal of Fluid Engineering,2003,125(4):716—722. doi: 10.1115/1.1593703
[5]	Chaiko M A,Brinckman K W. Models for analysis of water hammer in piping with entrapped air[J].Journal of Fluid Engineering,2002, 124(1):194—204. doi: 10.1115/1.1430668
[6]	Hadj-Taieb E,Lili T. Validation of hyperbolic model for water-hammer in deformable pipe[J].Journal of Fluid Engineering,2000,122(1):57—64. doi: 10.1115/1.483227
[7]	Liou Jin C P.Numerical properties of the discrete gas cavity model for transients[J].Journal of Fluid Engineering,2000,[STHZ]. 122[STBZ]. (3):636—639.
[8]	邓松圣，周明来，蒲家宁.分析管流水力-热力瞬变的双特征线法[J].应用数学和力学，2002，23(6)：627—634.
[9]	邓松圣,蒲家宁,廖振方. 分析介质顺序输送管流水力瞬变的特征线[J].水动力学研究与进展,2003,18(1):81—85.