Paper Title:
Using Monte Carlo Method to Calculate the Flow Field of Jet Pumps
  Abstract

It is the first time to study the consistent difference scheme of pressure equation and Neumann boundary conditions on two-dimensional non-staggered grid by using two-dimensional axisymmetric inhomogeneous equation for steady flow. The result of computing the fluid field of jet pump by using the Monte Carlo method is conforming approximately to the actual flow which is measured by the laser Doppler anemometry. The Monte Carlo simulation of flow field is therefore practical and feasible.

  Info
Periodical
Advanced Materials Research (Volumes 317-319)
Chapter
Micro-Electronic Packaging Technology and Equipment
Edited by
Xin Chen
Pages
1773-1777
DOI
10.4028/www.scientific.net/AMR.317-319.1773
Citation
T. Z. Li, P. F. Bi, N. Jiang, "Using Monte Carlo Method to Calculate the Flow Field of Jet Pumps", Advanced Materials Research, Vols. 317-319, pp. 1773-1777, 2011
Online since
August 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: Yan Jin Guan, Xin Wu, Guo Qun Zhao, Ping Lu
Abstract:The meshless methods effectively deal with large material distortion simulation. Based on the rigid (visco)plastic material model, the...
356
Authors: Xiu Hai Jin, Yi Wang Chen, Pin Zhang
Microelectronic Technology
Abstract:In this letter, an alternating-direction reduced finite-difference time-domain (ADI-R-FDTD) method is presents. It is proven that the...
1172
Authors: Li Ye Zhang, Xue Dong Guo, Li Juan Dong
Chapter 3: Civil Engineering
Abstract:In order to analyse bridge structure system reliability, studied various uncertainty factors on the influence of the bridge reliability,...
1338
Authors: Xiao Feng Niu, Wei Liang, Hua Hou, Yu Hong Zhao, Hong Xia Wang, Chun Xiang Xu, Jin Shan Zhang, Wei Li Cheng
Abstract:The Explicit Finite Difference (EFD) method is used for calculating the energy conservation equation during solidification. In order to...
545