Effects of Pu and MA uniform and nonuniform distributions on subcritical multiplication of TRIGA Mark II ADS reactor

Hesham Shahbunder; Amer A. Al Qaaod; Esmat A. Amin; S. U. El-Kameesy

doi:10.1016/j.anucene.2016.03.016

Effects of Pu and MA uniform and nonuniform distributions on subcritical multiplication of TRIGA Mark II ADS reactor

Hesham Shahbunder
, Amer A. Al Qaaod
, Esmat A. Amin
, S. U. El-Kameesy

Physics

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

Plutonium (Pu) and minor actinides (MAs) are responsible for the majority of radiotoxicity, heat generation, and proliferation risk of nuclear spent fuel. Accelerator driven system (ADS) reactors can employ Pu and MA for transmutation and power generation within improved safety scheme. Pu and MA can be loaded in ADS reactor core in a variety of distributions. In this study, the effects of uniform and nonuniform distributions of Pu and MA samples loaded within enriched uranium fuel elements inside UT-TRIGA Mark II ADS reactor on neutron flux, neutron spectrum, fission rate, and subcritical multiplication parameters were numerically investigated using Monte Carlo MCNPX transport code. The type of distribution producing higher subcritical multiplication and source efficiency will contribute in minimizing the accelerator current requirements for ADS operation.

Original language	English
Pages (from-to)	332-337
Number of pages	6
Journal	Annals of Nuclear Energy
Volume	94
DOIs	https://doi.org/10.1016/j.anucene.2016.03.016
State	Published - 1 Aug 2016

Keywords

ADS
External source efficiency
Fission rate
MCNPX
Minor actinide
Neutron flux
Neutron multiplication
Neutron spectrum
Plutonium
Subcritical multiplication factor
TRIGA Mark II

Access to Document

10.1016/j.anucene.2016.03.016

Cite this

@article{eb8e8c17ff0f4ab59b30217d3430e4f1,

title = "Effects of Pu and MA uniform and nonuniform distributions on subcritical multiplication of TRIGA Mark II ADS reactor",

abstract = "Plutonium (Pu) and minor actinides (MAs) are responsible for the majority of radiotoxicity, heat generation, and proliferation risk of nuclear spent fuel. Accelerator driven system (ADS) reactors can employ Pu and MA for transmutation and power generation within improved safety scheme. Pu and MA can be loaded in ADS reactor core in a variety of distributions. In this study, the effects of uniform and nonuniform distributions of Pu and MA samples loaded within enriched uranium fuel elements inside UT-TRIGA Mark II ADS reactor on neutron flux, neutron spectrum, fission rate, and subcritical multiplication parameters were numerically investigated using Monte Carlo MCNPX transport code. The type of distribution producing higher subcritical multiplication and source efficiency will contribute in minimizing the accelerator current requirements for ADS operation.",

keywords = "ADS, External source efficiency, Fission rate, MCNPX, Minor actinide, Neutron flux, Neutron multiplication, Neutron spectrum, Plutonium, Subcritical multiplication factor, TRIGA Mark II",

author = "Hesham Shahbunder and \{Al Qaaod\}, \{Amer A.\} and Amin, \{Esmat A.\} and El-Kameesy, \{S. U.\}",

year = "2016",

month = aug,

day = "1",

doi = "10.1016/j.anucene.2016.03.016",

language = "English",

volume = "94",

pages = "332--337",

journal = "Annals of Nuclear Energy",

issn = "0306-4549",

publisher = "Elsevier Ltd",

}

TY - JOUR

T1 - Effects of Pu and MA uniform and nonuniform distributions on subcritical multiplication of TRIGA Mark II ADS reactor

AU - Shahbunder, Hesham

AU - Al Qaaod, Amer A.

AU - Amin, Esmat A.

AU - El-Kameesy, S. U.

PY - 2016/8/1

Y1 - 2016/8/1

N2 - Plutonium (Pu) and minor actinides (MAs) are responsible for the majority of radiotoxicity, heat generation, and proliferation risk of nuclear spent fuel. Accelerator driven system (ADS) reactors can employ Pu and MA for transmutation and power generation within improved safety scheme. Pu and MA can be loaded in ADS reactor core in a variety of distributions. In this study, the effects of uniform and nonuniform distributions of Pu and MA samples loaded within enriched uranium fuel elements inside UT-TRIGA Mark II ADS reactor on neutron flux, neutron spectrum, fission rate, and subcritical multiplication parameters were numerically investigated using Monte Carlo MCNPX transport code. The type of distribution producing higher subcritical multiplication and source efficiency will contribute in minimizing the accelerator current requirements for ADS operation.

AB - Plutonium (Pu) and minor actinides (MAs) are responsible for the majority of radiotoxicity, heat generation, and proliferation risk of nuclear spent fuel. Accelerator driven system (ADS) reactors can employ Pu and MA for transmutation and power generation within improved safety scheme. Pu and MA can be loaded in ADS reactor core in a variety of distributions. In this study, the effects of uniform and nonuniform distributions of Pu and MA samples loaded within enriched uranium fuel elements inside UT-TRIGA Mark II ADS reactor on neutron flux, neutron spectrum, fission rate, and subcritical multiplication parameters were numerically investigated using Monte Carlo MCNPX transport code. The type of distribution producing higher subcritical multiplication and source efficiency will contribute in minimizing the accelerator current requirements for ADS operation.

KW - ADS

KW - External source efficiency

KW - Fission rate

KW - MCNPX

KW - Minor actinide

KW - Neutron flux

KW - Neutron multiplication

KW - Neutron spectrum

KW - Plutonium

KW - Subcritical multiplication factor

KW - TRIGA Mark II

UR - https://www.scopus.com/pages/publications/84962715503

U2 - 10.1016/j.anucene.2016.03.016

DO - 10.1016/j.anucene.2016.03.016

M3 - Article

AN - SCOPUS:84962715503

SN - 0306-4549

VL - 94

SP - 332

EP - 337

JO - Annals of Nuclear Energy

JF - Annals of Nuclear Energy

ER -

Effects of Pu and MA uniform and nonuniform distributions on subcritical multiplication of TRIGA Mark II ADS reactor

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this