A New Global Variance Reduction Technique Based on Geometry and Energy Splitting/Roulette

Zheng, Z.; Li, R.; Zhou, Y.; Mei, Q.; Deng, L.

Source: Journal of Nuclear Engineering and Radiation Science:;2020:;volume( 006 ):;issue: 001::page 011102-1

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DOI: 10.1115/1.4045030

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: With the increase of computer resources and the application of global variance reduction (GVR) method, it is a trend to obtain global distribution using the Monte Carlo (MC) method in deep-penetration shielding calculation. GVR technique uses biased source and weight window to decrease the MC calculation tally error for deep-penetration problems. However, excessive splitting of large weight particles out of the source region is time-consuming for problems with significant fluence rate variation. A new GVR technique, which performs space and energy splitting/roulette based on the importance of the phase space, is proposed in this paper to avoid excessive splitting of large weight particles. The improved GVR technique is applied to the H. B. Robinson Unit 2 (HBR-2) benchmark and CAP1400 dose rate distribution calculation. Numerical results show that the new GVR technique shows excellent performance for deep-penetration shielding calculation.

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A New Global Variance Reduction Technique Based on Geometry and Energy Splitting/Roulette

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Journal of Nuclear Engineering and Radiation Science

contributor author	Zheng, Z.
contributor author	Li, R.
contributor author	Zhou, Y.
contributor author	Mei, Q.
contributor author	Deng, L.
date accessioned	2022-02-04T22:49:25Z
date available	2022-02-04T22:49:25Z
date copyright	1/1/2020 12:00:00 AM
date issued	2020
identifier issn	2332-8983
identifier other	ners_006_01_011102.pdf
identifier uri	http://yetl.yabesh.ir/yetl1/handle/yetl/4275507
description abstract	With the increase of computer resources and the application of global variance reduction (GVR) method, it is a trend to obtain global distribution using the Monte Carlo (MC) method in deep-penetration shielding calculation. GVR technique uses biased source and weight window to decrease the MC calculation tally error for deep-penetration problems. However, excessive splitting of large weight particles out of the source region is time-consuming for problems with significant fluence rate variation. A new GVR technique, which performs space and energy splitting/roulette based on the importance of the phase space, is proposed in this paper to avoid excessive splitting of large weight particles. The improved GVR technique is applied to the H. B. Robinson Unit 2 (HBR-2) benchmark and CAP1400 dose rate distribution calculation. Numerical results show that the new GVR technique shows excellent performance for deep-penetration shielding calculation.
publisher	The American Society of Mechanical Engineers (ASME)
title	A New Global Variance Reduction Technique Based on Geometry and Energy Splitting/Roulette
type	Journal Paper
journal volume	6
journal issue	1
journal title	Journal of Nuclear Engineering and Radiation Science
identifier doi	10.1115/1.4045030
journal fristpage	011102-1
journal lastpage	011102-6
page	6
tree	Journal of Nuclear Engineering and Radiation Science:;2020:;volume( 006 ):;issue: 001
contenttype	Fulltext

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