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Griffin-m

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For questions about obtaining this software, please contact agradmin@inl.gov.

https://doi.org/10.11578/dc.20231010.1

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Abstract

Griffin-m is a MOOSE-based reactor multiphysics application that streamlines the analysis of a variety of nuclear multiphysics simulations, including steady-state and transient radiation transport, core performance, fuel depletion, criticality and decay heat calculations, reprocessing and post-irradiation examination. This streamlining is accomplished via enhanced flexibility of the tools, uniform syntax in the MOOSE framework, dynamic linking of all relevant physics and a single point of execution. The design for flexible multi-physics, multi-radiation, multi-scheme tasks demands and ultimately makes Griffin-m a highly extendable code system. A software quality assurance (SQA) procedure is enforced during Griffin-m development. The Griffin-m version will be the main production version and it includes the MCC3 code, which was originally developed at Argonne National Laboratory to prepare cross sections for fast reactors.
Developers:
ORCID [1] ORCID [1] Hanophy, Joshua [1] ORCID [1] Prince, Zachary [1] Calvin, Olin [1] ORCID [1] ORCID [1] ORCID [1] Jung, Yeon [2] Lee, Changho [2] Park, Hansol [2] Kumar, Shikhar [2]
  1. Idaho National Laboratory (INL), Idaho Falls, ID (United States)
  2. Argonne National Lab., Idaho Falls, ID (United States)
Release Date:
2021-07-27
Project Type:
Closed Source
Software Type:
Scientific
Programming Languages:
C++
Fortran
Sponsoring Org.:
Code ID:
114566
Research Org.:
Idaho National Laboratory (INL), Idaho Falls, ID (United States)
Argonne National Laboratory (ANL), Argonne, IL (United States)
Country of Origin:
United States
Keywords:
Nuclear; Reactor; Physics; Multiphysics; Coupled

RESOURCE

Availability

For questions about obtaining this software, please contact agradmin@inl.gov.

https://doi.org/10.11578/dc.20231010.1

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Citation Formats

Ortensi, Javier, Wang, Yaqi, Hanophy, Joshua T., Schunert, Sebastian, Prince, Zachary M., Calvin, Olin W., Laboure, Vincent M., Harter, Jackson R., Choi, Namjae, Jung, Yeon S., Lee, Changho, Park, Hansol, and Kumar, Shikhar. Griffin-m. Computer Software. USDOE Office of Nuclear Energy (NE). 27 Jul. 2021. Web. doi:10.11578/dc.20231010.1.
Ortensi, Javier, Wang, Yaqi, Hanophy, Joshua T., Schunert, Sebastian, Prince, Zachary M., Calvin, Olin W., Laboure, Vincent M., Harter, Jackson R., Choi, Namjae, Jung, Yeon S., Lee, Changho, Park, Hansol, & Kumar, Shikhar. (2021, July 27). Griffin-m. [Computer software]. https://doi.org/10.11578/dc.20231010.1.
Ortensi, Javier, Wang, Yaqi, Hanophy, Joshua T., Schunert, Sebastian, Prince, Zachary M., Calvin, Olin W., Laboure, Vincent M., Harter, Jackson R., Choi, Namjae, Jung, Yeon S., Lee, Changho, Park, Hansol, and Kumar, Shikhar. "Griffin-m." Computer software. July 27, 2021. https://doi.org/10.11578/dc.20231010.1.
@misc{ doecode_114566,
title = {Griffin-m},
author = {Ortensi, Javier and Wang, Yaqi and Hanophy, Joshua T. and Schunert, Sebastian and Prince, Zachary M. and Calvin, Olin W. and Laboure, Vincent M. and Harter, Jackson R. and Choi, Namjae and Jung, Yeon S. and Lee, Changho and Park, Hansol and Kumar, Shikhar},
abstractNote = {Griffin-m is a MOOSE-based reactor multiphysics application that streamlines the analysis of a variety of nuclear multiphysics simulations, including steady-state and transient radiation transport, core performance, fuel depletion, criticality and decay heat calculations, reprocessing and post-irradiation examination. This streamlining is accomplished via enhanced flexibility of the tools, uniform syntax in the MOOSE framework, dynamic linking of all relevant physics and a single point of execution. The design for flexible multi-physics, multi-radiation, multi-scheme tasks demands and ultimately makes Griffin-m a highly extendable code system. A software quality assurance (SQA) procedure is enforced during Griffin-m development. The Griffin-m version will be the main production version and it includes the MCC3 code, which was originally developed at Argonne National Laboratory to prepare cross sections for fast reactors.},
doi = {10.11578/dc.20231010.1},
url = {https://doi.org/10.11578/dc.20231010.1},
howpublished = {[Computer Software] \url{https://doi.org/10.11578/dc.20231010.1}},
year = {2021},
month = {jul}
}