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.

Issue Section:
Special Section: CNS's 8th International Conference on Simulation Methods in Nuclear Science and Engineering
Keywords:
global variance reduction, Monte Carlo method, discrete ordinates method, HBR-2 benchmark, CAP1400
Topics:
Computers, Errors, Fluence (Radiation measurement), Geometry, Neutrons, Particulate matter, Phase space, Photons, Weight (Mass), Dosimeters, Vessels

References

1.
Oak Ridge National Laboratory
,
1999
, “
BUGLE-96, Coupled 47 Neutron, 20 Gamma-Ray Group Cross Section Library Derived From ENDF/B-VI for LWR Shielding and Pressure Vessel Dosimetry Applications, DLC-185
,” Oak Ridge National Laboratory, Oak Ridge, TN.
2.
X-5 Monte Carlo Team
,
2003
, “
MCNP—A General Monte Carlo N-Particle Transport Code, Version 5
,” Los Alamos National Laboratory, Los Alamos, NM.
3.
Cheng
,
T.
,
Wei
,
J.
,
Shen
,
H.
,
Zhong
,
B.
, and
Deng
,
L.
,
2015
,
Development of Parallel 3D Discrete Ordinates Transport Program on JASMIN Framework
,
Canadian Nuclear Society
, Toronto, ON, Canada.
4.
Deng
,
L.
,
2014
,
3-D Monte Carlo Neutron-Photon Transport Code JMCT and Its Algorithms
,
PHYSOR
,
Kyoto, Japan
.
5.
Remec
,
I.
, and
Kam
,
F. B. K.
,
1997
,
H.B. Robinson-2 Pressure Vessel Benchmark
,
Oak Ridge National Laboratory
, Oak Ridge, TN.
6.
Rhoades
,
W. A.
, and
Childs
,
R. L.
,
1988
, “
The DORT Two-Dimensional Discrete Ordinates Transport Code
,”
Nucl. Sci. Eng.
,
99
(
1
), pp.
88
89
.10.13182/NSE88-A23547
Google Scholar
Crossref
Search ADS
 
7.
Wagner
,
J. C.
,
Peplow
,
D. E.
, and
Mosher
,
S. W.
,
2014
, “
FW-CADIS Method for Global and Regional Variance Reduction of Monte Carlo Radiation Transport Calculations
,”
Nucl. Sci. Eng.
,
176
(
1
), pp.
37
57
.10.13182/NSE12-33
Google Scholar
Crossref
Search ADS
 
8.
Zheng
,
Z.
,
Wang
,
M.
,
Li
,
H.
,
Mei
,
Q.
, and
Deng
,
L.
,
2017
, “
Application of a 3D Discrete Ordinates-Monte Carlo Coupling Method on CAP1400 Cavity Streaming Calculation
,”
ASME
Paper No. ICONE25-66401.10.1115/ICONE25-66401
9.
Zheng
,
Z.
,
Mei
,
Q.
, and
Deng
,
L.
,
2018
, “
Application of a Global Variance Reduction Method to HBR-2 Benchmark
,”
Nucl. Eng. Des.
,
326
, pp.
301
310
.10.1016/j.nucengdes.2017.11.035
Google Scholar
Crossref
Search ADS
 
10.
Zheng
,
Z.
,
Mei
,
Q.
, and
Deng
,
L.
,
2018
, “
Study on Variance Reduction Technique Based on Adjoint Discrete Ordinate Method
,”
Ann. Nucl. Energy
,
112
, pp.
374
382
.10.1016/j.anucene.2017.10.028
Google Scholar
Crossref
Search ADS
 
11.
Zheng
,
Z.
,
Wang
,
M.
,
Li
,
H.
,
Mei
,
Q.
, and
Deng
,
L.
,
2018
, “
Application of a 3D Discrete Ordinates-Monte Carlo Coupling Method to Deep-Penetration Shielding Calculation
,”
Nucl. Eng. Des.
,
326
, pp.
87
96
.10.1016/j.nucengdes.2017.11.005
Google Scholar
Crossref
Search ADS
 
12.
Zhou
,
Y.
,
Zheng
,
Z.
, and
Mei
,
Q.
,
2017
, “
The Preliminary Shielding Analysis of CAP1400 Based on JMCT-S Code
,”
ASME
Paper No. ICONE25-66429.10.1115/ICONE25-66429
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