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Algorithm Research & Explore
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3357-3360

Monte Carlo for calculating radiative heat transfer coefficient of 3D gray body based on GPU

Liu Shuo
Zhu Xi'an
Wang Zhangang
Li Fubing
School of Information & Communication Engineering, Beijing Information Science & Technology University, Beijing 100101, China

Abstract

In order to calculate the radiative heat transfer coefficient between the diffuse surface of the 3D gray body, this paper set up a cell cube model to represent the gray surface, and generated rays emitted from one surface(i. e. emission surface) by using Monte Carlo method. It was tracing the multiple reflections for each ray until the ray was totally absorbed. It recorded the absorbed energy at each ray-facet intersection to calculate the heat transfer coefficient between the emission surface and any other surface. To solve the over-consumption issue of radiative heat transfer coefficient based on Monte Carlo method between the diffuse surface of the 3D gray body, this paper used a Monte Carlo method based on GPU to realize the parallel computation, and used the unified programming architecture CUDA to get the realization of programming the Monte Carlo method. According to the CUDA random number generation algorithm, it parallelly computed the tracing process of the radiative transfer coefficient, and realized a parallel scheme for calculating the radiative transfer coefficient. Experimental results show that, compared with the CPU serial calculation method, the parallel Monte Carlo method based on CUDA architecture can obtain the calculated acceleration ratio of 80 times as high as the radiative heat transfer coefficient.

Foundation Support

北京市科技创新服务能力建设—基本科研业务费(科研类)资助项目(71E1810969)
北京市科技创新服务能力建设—提升计划资助项目(PXM2017_014224_000009)

Publish Information

DOI: 10.19734/j.issn.1001-3695.2018.05.0358
Publish at: Application Research of Computers Printed Article, Vol. 36, 2019 No. 11
Section: Algorithm Research & Explore
Pages: 3357-3360
Serial Number: 1001-3695(2019)11-035-3357-04

Publish History

[2019-11-05] Printed Article

Cite This Article

刘硕, 朱希安, 王占刚, 等. 三维灰体辐射传递系数蒙特卡罗的GPU计算 [J]. 计算机应用研究, 2019, 36 (11): 3357-3360. (Liu Shuo, Zhu Xi'an, Wang Zhangang, et al. Monte Carlo for calculating radiative heat transfer coefficient of 3D gray body based on GPU [J]. Application Research of Computers, 2019, 36 (11): 3357-3360. )

About the Journal

  • Application Research of Computers Monthly Journal
  • Journal ID ISSN 1001-3695
    CN  51-1196/TP

Application Research of Computers, founded in 1984, is an academic journal of computing technology sponsored by Sichuan Institute of Computer Sciences under the Science and Technology Department of Sichuan Province.

Aiming at the urgently needed cutting-edge technology in this discipline, Application Research of Computers reflects the mainstream technology, hot technology and the latest development trend of computer application research at home and abroad in a timely manner. The main contents of the journal include high-level academic papers in this discipline, the latest scientific research results and major application results. The contents of the columns involve new theories of computer discipline, basic computer theory, algorithm theory research, algorithm design and analysis, blockchain technology, system software and software engineering technology, pattern recognition and artificial intelligence, architecture, advanced computing, parallel processing, database technology, computer network and communication technology, information security technology, computer image graphics and its latest hot application technology.

Application Research of Computers has many high-level readers and authors, and its readers are mainly senior and middle-level researchers and engineers engaged in the field of computer science, as well as teachers and students majoring in computer science and related majors in colleges and universities. Over the years, the total citation frequency and Web download rate of Application Research of Computers have been ranked among the top of similar academic journals in this discipline, and the academic papers published are highly popular among the readers for their novelty, academics, foresight, orientation and practicality.


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