Numerical simulation of differential molecular diffusion effects in a hydrogen-rich turbulent jet using LEM3D

机译：使用LEM3D富含氢气湍流射流差分分子扩散效应的数值模拟

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The LEM3D stochastic model for numerical simulation of turbulent mixing is used to simulate differential molecular diffusion effects in an isothermal jet of hydrogen and Freon 22 issued into air. The computations are compared with a published experimental study of the flow configuration. Salient features of the measured results are reproduced qualitatively, but the absence of spatial variation of the smallest eddy motion in LEM3D omits the streamwise variation of this length scale in the experimental configuration, resulting in a systematic deviation from the experimental trend. A first-principles basis for incorporating this missing physics into LEM3D is described, indicating the path forward for physically based quantitative prediction of differential diffusion effects, and turbulent combustion phenomenology more generally, using LEM3D.

机译：湍流混合数值模拟的LEM3D随机模型用于模拟氢气22的等温射流中的差分分子扩散效应。将计算与流动配置的公开实验研究进行了比较。定性地再现测量结果的显着特征，但是LEM3D中最小涡流的空间变化省略了在实验配置中省略了该长度尺度的流动变化，从而产生了与实验趋势的系统偏差。描述了将该缺失物理学纳入LEM3D的第一原理的基础，指示使用LEM3D的物理基于基于差分扩散效应的定量预测和湍流燃烧现象学的路径。

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《Trondheim Conference on CO2 Capture, Transport and Storage》|2014年||共6页
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作者
Sigurd Sannan; Alan R. Kerstein;
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中图分类大气污染及其防治;
关键词
pre-combustion capture; turbulent combustion; turbulent mixing;

机译：预燃烧捕获;湍流燃烧;湍流混合;

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1. Large eddy simulations of differential molecular diffusion in non-reacting turbulent jets of H_2/CO_2 mixing with air [J] . G. Maragkos, P. Rauwoens, D. Fauconnier, Physics of fluids . 2014,第2期

机译：H_2 / CO_2与空气混合的非反应湍流射流中不同分子扩散的大涡模拟
2. Numerical study on the importance of the turbulent inlet boundary condition and differential diffusion in a turbulent H_2/N_2/air jet diffusion flame [J] . DAusilio A., Stankovic I., Merci B. Combustion Science and Technology . 2019,第1a3期

机译：湍流H_2 / N_2 /空气射流扩散火焰中湍流入口边界条件和微分扩散的重要性的数值研究
3. Numerical study on the importance of the turbulent inlet boundary condition and differential diffusion in a turbulent H_2/N_2/air jet diffusion flame [J] . DAusilio A., Stankovic I., Merci B. Combustion Science and Technology . 2019,第1a3期

机译：湍流入口边界条件和差分扩散在湍流H_2 / N_2 /空气射流扩散火焰中的重要性的数值研究
4. Numerical simulation of differential molecular diffusion effects in a hydrogen-rich turbulent jet using LEM3D [C] . Sigurd Sannan, Alan R. Kerstein Trondheim Conference on CO2 Capture, Transport and Storage . 2014

机译：使用LEM3D富含氢气湍流射流差分分子扩散效应的数值模拟
5. Differential Molecular Diffusion in Turbulent Non-premixed Combustion: Power-law Scaling, Modeling Requirements, and Flamelet Simulations [D] . Han, Chao. 2018

机译：湍流非预混燃烧中的差分分子扩散：幂律定标，建模要求和小火焰模拟
6. Turbulent particle pair diffusion: Numerical simulations [O] . Nadeem A. Malik 2015

机译：湍流颗粒对扩散：数值模拟
7. Numerical Simulation of Differential Molecular Diffusion Effects in a Hydrogen-rich Turbulent Jet Using LEM3D [O] . Sannan Sigurd, Kerstein Alan R. 2014

机译：利用LEM3D数值模拟富氢湍流射流中不同的分子扩散效应
8. Laser Raman scattering measurements of differential molecular diffusion in turbulent nonpremixed jet flames of H(sub 2)/CO(sub 2) fuel. [R] . Smith, L. L., Dibble, R. W., Talbot, L., 1994

机译：激光拉曼散射测量H（sub 2）/ CO（sub 2）燃料湍流非预混射流火焰中的微分分子扩散。

Numerical simulation of differential molecular diffusion effects in a hydrogen-rich turbulent jet using LEM3D

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