Analyzing thermal radiation in cylindrical anisotropic scattering medium with element differential method

Q3 Engineering
Yifang Li, Yasong Sun, Huabo Zhang, Sida Li, Changhao Liu, Jing Ma
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引用次数: 0

Abstract

The spontaneous radiation combustion diagnosis technology has high requirements for obtaining the radiation intensity of highly directional resolution in a combustion system. Taking advantage of the numerical stability and easy implementation of the element differential method, this paper constructs a radiation model that can achieve the radiation intensity of spatial and angular high-resolution in cylindrical anisotropic scattering medium. In analyzing the radiation model, the radiation intensity is discretized in three dimensions. An upwind scheme is proposed to suppress the numerical oscillation of the strong convection characteristics of the radiation transfer equation. The double-layer node algorithm is used to capture the strong discontinuous singularities at the radiation boundary. The comparison with the analytical solution shows that the radiation model based on the element differential method can achieve the high-resolution description of radiation intensity with high-order accuracy. The accuracy and validity of the radiation model are verified through comparing with the results on the Monte Carlo method. The further description of the three-dimensional distribution of radiation intensity in angle and space proves that the up-wind scheme can effectively suppress numerical oscillation and realize stable calculation.
用单元微分法分析圆柱各向异性散射介质中的热辐射
自发辐射燃烧诊断技术对在燃烧系统中获得高方向分辨率的辐射强度有很高的要求。利用单元微分法的数值稳定性和易于实现的优点,本文构造了一个辐射模型,该模型可以在圆柱形各向异性散射介质中实现空间和角度高分辨率的辐射强度。在分析辐射模型时,辐射强度被离散化为三维。提出了一种逆风格式来抑制辐射传递方程强对流特性的数值振荡。双层节点算法用于捕捉辐射边界处的强不连续奇点。与解析解的比较表明,基于单元微分法的辐射模型可以实现高精度的高分辨率辐射强度描述。通过与蒙特卡罗方法的结果比较,验证了辐射模型的准确性和有效性。对辐射强度在角度和空间上的三维分布的进一步描述证明,逆风格式可以有效地抑制数值振荡,实现稳定计算。
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来源期刊
西北工业大学学报
西北工业大学学报 Engineering-Engineering (all)
CiteScore
1.30
自引率
0.00%
发文量
6201
审稿时长
12 weeks
期刊介绍:
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