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RADIATION HEAT TRANSFER OF ARBITRARY 3-D PARTICIPATING MEDIA AND SURFACES USING RADIATION ELEMENT METHOD BY RAY EMISSION MODEL (REM2)

机译：使用辐射元件法通过射线发射模型进行任意3-D参与介质和表面的辐射传热（REM2）

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A generalized numerical method for radiation heat transfer of absorbing, emitting and scattering media and specular surfaces with three-dimensional arbitrary configurations, REM{sup}2, is proposed. The ray emission model for various radiation elements is expressed by polyhedrons and polygons. Arbitrary thermal conditions can be specified for each radiation element, and generalized radiation transfer can be achieved regardless of surface and volume elements by introducing a new definition of view factors. The accuracy of the present method is verified using simple configurations. A cubic participating medium with a spherical cavity covered with specular and diffuse surfaces is analyzed as an example of an arbitrary configuration. The temperature distribution shows good accuracy with a small number, such as 45, of ray emitted from each element compared with the Monte Carlo method.

机译：提出了一种用于吸收，发射和散射介质和具有三维任意配置的镜面散射介质和镜面的广义数值方法，REM {SUP} 2。各种辐射元件的光线发射模型由多面体和多边形表示。可以针对每个辐射元件指定任意热条件，并且通过引入观测因子的新定义，可以实现广义辐射转移。使用简单配置验证本方法的准确性。分析具有镜面和漫射表面的球形腔的立方体参与介质作为任意配置的示例。与蒙特卡罗方法相比，温度分布显示良好的准确性，较小的数量，例如从每个元素发射的射线。

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《ASME·JSME Thermal Engineering Joint Conference》|1995年||共8页
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Shigenao MARUYAMA; Toshio AIHARA;
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中图分类 T-53;
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1. Radiation Element Method Coupled with the Lattice Boltzmann Method Applied to the Analysis of Transient Conduction and Radiation Heat Transfer Problem with Heat Generation in a Participating Medium [J] . Atsushi Sakuraia Subhash C. Mishrab* amp, Shigenao Maruyamac Numerical Heat Transfer, Part A: Applications . 2010,第5期

机译：辐射单元法与格子玻尔兹曼法相结合用于分析参与介质中产生热量的瞬态传导和辐射传热问题
2. RADIATION ELEMENT METHOD COUPLED WITH THE LATTICE BOLTZMANN METHOD APPLIED TO THE ANALYSIS OF TRANSIENT CONDUCTION AND RADIATION HEAT TRANSFER PROBLEM WITH HEAT GENERATION IN A PARTICIPATING MEDIUM [J] . Atsushi Sakurai, Subhash C. Mishra, Shigenao Maruyama Numerical Heat Transfer, Part A. Application: An International Journal of Computation and Methodology . 2010,第1a6期

机译：与格子Boltzmann方法耦合的辐射单元法，用于分析参与介质中热传导的瞬态传导和辐射传热问题
3. Discontinuous finite element method for combined radiation-conduction heat transfer in participating media [J] . Wang Cun-Hai, Feng Yan-Yan, Yue Kai, International communications in heat and mass transfer . 2019,第Nova期

机译：参与介质中辐射传导热传导的非连续有限元方法
4. RADIATION HEAT TRANSFER OF ARBITRARY 3-D PARTICIPATING MEDIA AND SURFACES USING RADIATION ELEMENT METHOD BY RAY EMISSION MODEL (REM2) [C] . Shigenao MARUYAMA, Toshio AIHARA ASME·JSME Thermal Engineering Joint Conference . 1995

机译：使用辐射元件法通过射线发射模型进行任意3-D参与介质和表面的辐射传热（REM2）
5. FINITE ELEMENT ANALYSIS OF COMBINED MODE HEAT TRANSFER, INCLUDING RADIATION IN GRAY PARTICIPATING MEDIA [D] . RAZZAQUE, MUHAMMAD MAHBUBUR. 1982

机译：混合模式传热的有限元分析，包括灰色参与介质中的辐射
6. Paradigm Shift in Radiation Biology/Radiation Oncology—Exploitation of the H2O2 Effect for Radiotherapy Using Low-LET (Linear Energy Transfer) Radiation such as X-rays and High-Energy Electrons [O] . Yasuhiro Ogawa 2016

机译：放射生物学/放射肿瘤学的范式转变-利用低LET（线性能量转移）辐射（例如X射线和高能电子）进行放射治疗的 H2O2效应的开发
7. Radiation heat transfer model using Monte Carlo ray tracing method on hierarchical ortho-Cartesian meshes and non-uniform rational basis spline surfaces for description of boundaries [O] . Kuczyński Paweł, Białecki Ryszard 2014

机译：采用蒙特卡罗射线追踪方法对层次正笛网格和非均匀有理基准样条曲面进行辐射传热模型描述边界

RADIATION HEAT TRANSFER OF ARBITRARY 3-D PARTICIPATING MEDIA AND SURFACES USING RADIATION ELEMENT METHOD BY RAY EMISSION MODEL (REM2)

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