Numerical Simulation of A Ceramic Furnace Burner. Capacity of Turbulent and Radiation Models

机译：陶瓷炉燃烧器的数值模拟。动力和辐射模型的能力

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We intend in this work to model an industrial burner replica of the ceramic tunnel furnace of the Ceramics Modern Society (SOMOCER, TUNISIA). This study aims to evaluate the ability of turbulence and radiation models to predict the dynamics and heat transfer fields. The study is conducted by means of numerical simulations in presence of a reactive flow using the commercial code FLUENT. The 3D Navier-Stokes equations and four species transport equations are solved with the eddy-dissipation {ED} combustion model. We use three turbulence models {k-εstandard, k-ε RNG, and RSM} and two radiation models (DTRM and DO). The obtained results demonstrate that the k-ε standard turbulence model is unable to predict the flow characteristics whereas; the k-ε RNG and RSM models give a satisfying agreement with the experiments. Suitable results are provided by the DTRM radiation model; whereas, those given by the DO model can be improved.

机译：我们打算在这项工作中模拟陶瓷现代社会陶瓷隧道炉的工业燃烧器复制品（Somocer，突尼斯）。本研究旨在评估湍流和辐射模型预测动力学和传热领域的能力。通过使用商业代码流畅的反应流动存在数值模拟来进行该研究。用涡流耗散{ED}燃烧模型解决了3D Navier-Stokes方程和四种物种传输方程。我们使用三种湍流模型{k-ε标准，k-εrng和rsm}和两个辐射模型（DTRM和DO）。所得结果表明，K-ε标准湍流模型无法预测流动特性，而是; K-εrng和RSM模型与实验提供了令人满意的协议。合适的结果由DTRM辐射模型提供;虽然，可以改善由DO模型给出的那些。

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《International Conference on Diffusion in Solids and Liquids, Mass Transfer - Heat Transfer - Microstructure Properties - Nanodiffusion and Nanostructured Materials 》|2009年||共7页
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Anouar Souid; Wassim Kriaa; Hatem Mhiri; Georges Le Palec; Philippe Bournot;
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中图分类 TB3-53;
关键词
Combustion; Simulation; Burner; Turbulent and Radiation Models;

机译：燃烧;模拟;燃烧器;湍流和辐射模型;

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1. Numerical Simulation of A Ceramic Furnace Burner.Capacity of Turbulent and Radiation Models [J] . Anouar Souid, Wassim Kriaa, Hatem Mhiri, Diffusion and Defect Data. Solid State Data, Part A. Defect and Diffusion Forum . 2009 ,第Null期

机译：陶瓷炉燃烧器的数值模拟湍流和辐射模型的容量
2. INFLUENCE OF APPLICATION OF HOTTEL'S ZONAL MODEL AND SK-FLUX MODEL OF THERMAL RADIATION ON NUMERICAL SIMULATIONS RESULTS OF PULVERIZED COAL FIRED FURNACE [J] . Nenad D. CRNOMARKOVIC, Miroslac A. SIJERCIC, Srdjan V. BELOSEVIC, Thermal science . 2012 ,第1期

机译：热辐射的Hottel区域模型和SK-Flux模型的应用对煤粉炉数值模拟结果的影响
3. Influence of application of Hottel’s zonal model and six-flux model of thermal radiation on numerical simulations results of pulverized coal fired furnace [J] . Crnomarkovic Nenad D., Sijercic Miroslav A., Belosevic Sr?an V., Thermal science . 2012 ,第1期

机译：Hottel的区域模型和六通量热辐射模型的应用对煤粉炉数值模拟结果的影响
4. Numerical Simulation of A Ceramic Furnace Burner. Capacity of Turbulent and Radiation Models [C] . Anouar Souid, Wassim Kriaa, Hatem Mhiri, International Conference on Diffusion in Solids and Liquids, Mass Transfer - Heat Transfer - Microstructure Properties - Nanodiffusion and Nanostructured Materials . 2009

机译：陶瓷炉燃烧器的数值模拟。动力和辐射模型的能力
5. Mathematical modelling and numerical simulations of chemically reacting turbulent jets. [D] . Mehravaran, Kian. 2005

机译：化学反应湍流射流的数学建模和数值模拟。
6. Advancing predictive models for particulate formation in turbulent flames via massively parallel direct numerical simulations [O] . Fabrizio Bisetti, Antonio Attili, Heinz Pitsch -1

机译：通过大规模并行直接数值模拟改进湍流火焰中颗粒形成的预测模型
7. Mathematical Modeling of Iron and Steel Making Processes. Numerical Simulations of Turbulent Non-premixed Combustion in a Regenerative Furnace. [O] . N. Stockwell, C. Zhang, T. Ishii, 2001

机译：钢铁制造工艺的数学建模。再生炉中湍流非预混燃烧的数值模拟。
8. Numerical simulation of turbulent mixing and combustion near the inlet of a burner. [R] . Cloutman, L. D. 1993

机译：燃烧器入口附近湍流混合燃烧的数值模拟。

Numerical Simulation of A Ceramic Furnace Burner. Capacity of Turbulent and Radiation Models

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