Paper Title:
The Analytical Model and Flow Parameter Influencing the Internal Pressure Distribution of Elbow Pipe
  Abstract

The internal pressure analytical model of elbow pipe and the research conclusions, which were established after the study of the influence which was made by different outlet pressure P0 , inlet velocity v and fluid density ρ on the regularity of the distribution of the fluid pressure in elbow pipe with the method of numerical simulation, bear important engineering significance to the strength analysis, safety inspection and structural design of the elbow pipe.

  Info
Periodical
Chapter
Chapter 1: Material Engineering and its Application
Edited by
Helen Zhang and David Jin
Pages
192-196
DOI
10.4028/www.scientific.net/AMR.366.192
Citation
X. Y. Lu, X. L. Lu, L. L. Huang, Y. M. Xu, Y. Y. Liu, "The Analytical Model and Flow Parameter Influencing the Internal Pressure Distribution of Elbow Pipe", Advanced Materials Research, Vol. 366, pp. 192-196, 2012
Online since
October 2011
Export
Price
$32.00
Share

In order to see related information, you need to Login.

In order to see related information, you need to Login.

Authors: Bao Rui Xu, Ming Hu Jiang, Li Xin Zhao, Fang Tan, Xiao Guang Zhang
Chapter 12: Construction and Building Materials Engineering
Abstract:Elbow as common components in the gas pipeline fails easily to natural gas carrying solid particle erosion in the process of practical work....
1911
Authors: Xiao Yang Lu, Hong Liang Zhu, Xiao Li Lu, Jin Ming Liu, Yong Zhou, Xin Guang Li
Chapter 1: Applied Mechanics and Dynamics, Mechanical Engineering, Manufacturing
Abstract:On the premise of the simulation data for the inner fuild passing the elbow pipe by means of software named FLUENT and dimensional analysis,...
34
Authors: Xiao Yang Lu, Xin Guang Li, Jin Ming Liu, Xiao Li Lu, Hong Liang Zhu, Yong Zhou
Chapter 1: Applied Mechanics and Dynamics, Mechanical Engineering, Manufacturing
Abstract:According to the FLUENT simulation results of the 90°elbow pipe fluid flow condition, the influence of the pressure distribution about the...
39