Calculation of the heat deposition and temperature distribution of the target bombarded by high-energy protons using Monte Carlo simulation and finite element method

doi:10.1088/1009-1963/12/12/008

Abstract

Abstract The Monte Carlo simulation and the finite element methods have been used to calculate the heat deposition and temperature distribution in tungsten plate target when the target is bombarded by high-energy protons from the accelerator with nuclear power of 100 kW. The results show that the heat deposition in the target, reflector and shield will be 48 kW, 15 kW and 11 kW, respectively, and the highest temperature in the target plates will be lower than 100℃ when the surfaces of plates are cooled by water.

Keywords: heat deposition temperature distribution target

Received: 20 May 2003
Revised: 09 June 2003
Accepted manuscript online:

PACS:	07.20.Dt	(Thermometers)
	61.80.Jh	(Ion radiation effects)
	02.50.Ng	(Distribution theory and Monte Carlo studies)
	02.70.Dh	(Finite-element and Galerkin methods)

Cite this article:

Yin Wen (殷雯), Zhang Guo-Feng (张国锋), Du Jian-Hong (杜建红), Liang Jiu-Qing (梁九卿) Calculation of the heat deposition and temperature distribution of the target bombarded by high-energy protons using Monte Carlo simulation and finite element method 2003 Chinese Physics 12 1383

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Calculation of the heat deposition and temperature distribution of the target bombarded by high-energy protons using Monte Carlo simulation and finite element method

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