An efficient upwind relaxation-sweeping algorithm for three-dimensional Euler equations

G E-C H E N G Zha; D A O-Z H I Liu; GeCheng Zha

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An efficient upwind relaxation-sweeping algorithm for three-dimensional Euler equations

G E-C H E N G Zha, D A O-Z H I Liu and GeCheng Zha

AIAA, Aerospace Sciences Meeting, 28th, Reno, NV; UNITED STATES; 8-11 Jan. 1990

1990-01-08

Abstract

An efficient finite-volume algorithm for three-dimensional Euler equations is presented. The spatial discretization is based on Van Leer's flux vector splitting. The flow field is analyzed by alternating sweeping in the spanwise direction and local Gauss-Seidel iteration on each vertical streamwise plane. Two internal transonic flows are calculated to show efficiency and accuracy. (Author)

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Title: An efficient upwind relaxation-sweeping algorithm for three-dimensional Euler equations
Creators: G E-C H E N G Zha
D A O-Z H I Liu
GeCheng Zha - CoE - Mechanical & Aerospace Engineering
Publication Details: AIAA, Aerospace Sciences Meeting, 28th, Reno, NV; UNITED STATES; 8-11 Jan. 1990
Academic Unit: CoE - Mechanical & Aerospace Engineering; College of Engineering
Language: English
Resource Type: Conference proceeding
Record Identifier: 991031725666202976