| Title: |
An Eulerian–Eulerian–Lagrangian modeling of two-phase combustion. |
| Authors: |
Zhou, L. X.1 zhoulx@mail.tsinghua.edu.cn |
| Source: |
Theoretical & Computational Fluid Dynamics. Dec2023, Vol. 37 Issue 6, p767-780. 14p. |
| Subject Terms: |
*COMBUSTION, *GAS phase reactions, *LAGRANGE equations, *COAL combustion, *PROBLEM solving |
| Abstract: |
In simulating two-phase combustion, most Reynolds-averaged Navier–Stokes (RANS) simulation and large-eddy simulation (LES) used Eulerian–Lagrangian (E–L) modeling (Eulerian treatment of gas phase and Lagrangian treatment of particles/droplets) which needs much more computational time than the Eulerian–Eulerian (E–E) or two-fluid modeling. However, in the E–E modeling, the problem of how to reduce the computation time for poly-dispersed particles is encountered. To solve this problem, the present author proposed an Eulerian–Eulerian–Lagrangian (E–E–L) modeling of two-phase combustion for both RANS modeling and LES. The E–E–L modeling is an Eulerian treatment of gas phase and a combined Eulerian–Lagrangian treatment of particles/droplets, in which the particle velocity and concentration are solved by Eulerian modeling, and particle temperature and mass change due to reaction are solved by Lagrangian modeling. In this paper, a review is given for an E–E–L modeling of coal combustion, its application in RANS simulation and its possible application in LES. For E–E–L LES, an energy equation model of two-phase sub-grid scale (SGS) stresses accounting for the interaction between two-phase SGS stresses is suggested, and a second-order moment SGS (SOM-SGS) turbulence-chemistry model is adopted to simulate gas-phase reaction in two-phase combustion. These SGS models were separately assessed by comparison with experiments. [ABSTRACT FROM AUTHOR] |
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