Subgrid Scale Combustion Modeling Based on Stochastic Model Parameterization

William H. Calhoon; Andrea C. Zambon; Balu Sekar; Barry Kiel

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Subgrid Scale Combustion Modeling Based on Stochastic Model Parameterization

机译：基于随机模型参数化的亚电网规模燃烧建模

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A new modeling formulation for turbulent chemistry interactions in large-eddy simulation (LES) is presented that is based on a unique application of the linear-eddy model (LEM) that includes large scale strain effects. This novel application of the LEM may be used to predict turbulent flame extinction limits due to both small and large scale strain effects. Statistics from this modeling formulation may be used to generate an inexpensive runtime model for LES predictions. This paper presents the LEM modeling formulation and demonstrates the capabilities of the approach for augmenter conditions. A methodology is also presented for formulating an LES-linear-eddy model (LES-LEM) subgrid model based on the simulation data.

机译：基于线性涡流模型（LEM）的独特应用，提出了一种用于大涡流模拟（LES）中湍流化学相互作用的新建模公式，该模型包括大规模应变效应。 LEM的这种新颖应用可用于预测由于小规模应变效应和大规模应变效应而引起的湍流火焰熄灭极限。来自该建模公式的统计信息可用于生成用于LES预测的廉价运行时模型。本文介绍了LEM建模公式，并演示了该方法在增强器条件下的功能。还提出了一种基于仿真数据制定LES线性涡模型（LES-LEM）子网格模型的方法。

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《Journal of Engineering for Gas Turbines and Power》 |2012年第3期|p.031505.1-031505.12|共12页
作者
William H. Calhoon; Andrea C. Zambon; Balu Sekar; Barry Kiel;
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作者单位

Combustion Research and Flow Technology, Inc.,(CRAFT Tech),Huntsville, AL 35802 and Pipersville, PA 18947;

Combustion Research and Flow Technology, Inc.,(CRAFT Tech),Huntsville, AL 35802 and Pipersville, PA 18947;

Air Force Research Lab, AFRL/RZTC Wright-Patterson Air Force Base, OH 45433;

Air Force Research Lab, AFRL/RZTC Wright-Patterson Air Force Base, OH 45433;

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正文语种 eng
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ANN: artificial neural network; BSP: binary space partition; DNS: direct numerical simulation; ISAT: in situ adaptive tabularization; LEM: linear-eddy model et al;

机译：ANN：人工神经网络;BSP：二进制空间分区;DNS：直接数值模拟;ISAT：原位自适应表格化;LEM：线性涡流模型等;

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Subgrid Scale Combustion Modeling Based on Stochastic Model Parameterization

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