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Parallel computing in multiphase flow systems simulations presented at 1994 International Mechanical Engineering Congress and Exposition, Chicago, Illinois, November 6-11, 1994 by International Mechanical EngineeringCongress and Exposition (1994 Chicago, Illinois)

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Published by American Society of Mechanical Engineers in New York, N.Y .
Written in English

Subjects:

  • Multiphase flow -- Mathematical models -- Congresses.,
  • Parallel processing (Electronic computers) -- Congresses.

Book details:

Edition Notes

Includes bibliographical references and index.

Statementsponsored by the Fluids Engineering Division, ASME ; edited by Sangtae Kim, George Karniadakis, Mary K. Vernon..
SeriesFED -- vol. 199, FED (Series) -- vol. 199..
ContributionsKim, Sangtae., Karniadakis, George., Vernon, Mary Katharine., American Society of Mechanical Engineers. Fluids Engineering Division.
Classifications
LC ClassificationsTA357.5.M84
The Physical Object
Paginationv, 91 p. :
Number of Pages91
ID Numbers
Open LibraryOL22207457M
ISBN 100791814041

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used to solve the flow. In this paper a parallel algorithm employed to solve transient multiphase flows using the Volume-of-Fluid method (VOF) with Piecewise-Linear Interface Calculation (PLIC) reconstruction technique is presented. The solution . Parallel computing is used in automotive industry for complex CFD simulations since years and can be considered as state of the art for all applications with non-moving meshes and a fixed grid topology. The widely used commercial CFD packages (e.g. Fluent, StarCD etc.) show an acceptable performance on massively parallel computer systems. The feasibility of running MPI-parallel, GPU-accelerated, multiphase flow simulations on Amazon's Elastic Compute Cloud (EC2) service is evaluated as an alternative computational resource. Even though 2D axisymmetric is a very easy choice for many multiphase flow simulations, in reality, many practical engineering problems end up with a 3D simulation with different complexities. That’s why, parallel computing is widely used in automobile industries, aerodynamics, combustion (spray combustion), multiphase systems [ 2 ], nuclear reactor engineering Author: M. Khan, Clive A.J. Fletcher, Geoffrey Evans, Qinglin He.

  3D numerical simulations for multi-phase flows have been implemented on the VPP/28 system at RIKEN. The physical processes are computed by using a splitting solution Author: Feng Xiao, Toshikazu Ebisuzaki. Parallel reservoir simulators and efficient numerical meth ods for parallel computing are essential to improve simulation runs and simulators’ applicability. Reservoir simulations have been studied for decades by researchers, and various techniques have been devel-oped to model new recovery processes and to accelerate computer simulations File Size: KB. We consider parallel computing technology for the thermal simulation of multicomponent, multiphase fluid flow in petroleum reservoirs. This paper reports the development and applications of a parallel thermal recovery simulation . Purchase Parallel Computing: Fundamentals, Applications and New Directions, Volume 12 - 1st Edition. Print Book & E-Book. ISBN ,

COMPUTATIONAL METHODS FOR MULTIPHASE FLOW Predicting the behavior of multiphase flows is a problem of immense im-portance for both industrial and natural processes. Thanks to high-speed . A new parallel code for the simulation of the transient, 3D dispersal of volcanic particles in the atmosphere is presented. The model equations, describing the multiphase flow dynamics of gas and Cited by: Usually dispatched within 3 to 5 business days. This book is the maiden volume in a new series devoted to lectures delivered through the annual seminars “Short Courses on Multiphase Flow,” held primarily . Abstract. MUFTE-UG, a parallel numerical simulator for multiphase flow and transport processes in porous media, is introduced. The basic PDEs for two-phase flow together with a discretization and Cited by: 1.