2023-03-29T20:42:23Z
https://nagoya.repo.nii.ac.jp/oai
oai:nagoya.repo.nii.ac.jp:00017713
2023-01-16T04:05:48Z
320:321:322
Lattice Gas Simulation on Combustion with Flamelet Model
Flameletモデルを適用した燃焼場の格子ガスシミュレーション
山本, 和弘
51795
YAMAMOTO, Kazuhiro
51796
Lattice Gas Automata
Flamelet Model
Diffusion Combustion
Computational Fluid Dynamics
Since computer performance has drastically increased, numerical simulation is a powerful means for simulation of fluid flow. However, combustion simulation is still challenging and it is difficult to simulate combustion field with both turbulence and detailed chemistry, because it takes much time to solve 2D or 3D governing equations such as conservation equations of mass and momentum. Recently, Lattice Gas Automata (LGA) has been proposed as an alternative approach for simulating fluids. It describes the fluid at more microscopic level by assuming that it is composed by mesoscopic particles. The space and time are all discrete, and the physical quantities take only a finite set of values. Macroscopic quantities such as density and velocity are determined by the collective behavior of particles. The scheme of this discrete model is simple and easy for parallel computing. In this work, we simulate combustion filed by LGA, coupled with a Laminar Flamelet model to determine the temperature and concentration of the mixture by fast-chemistry assumption. Two particles of fuel and oxidizer are used for simulating diffusion combustion. We focus on the so-called counter flow diffusion flame. Some results including flow, temperature, and concentration fields are shown.
journal article
日本燃焼学会
2002-05
application/pdf
日本燃焼学会誌
128
44
97
102
http://hdl.handle.net/2237/19784
1347-1864
https://nagoya.repo.nii.ac.jp/record/17713/files/22.pdf
jpn