Difference between revisions of "Stochastic Implicit Euler burnup scheme"
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The theoretical background of the SIE scheme is described in <ref name="DufekANE13"/> | The theoretical background of the SIE scheme is described in <ref name="DufekANE13"/> | ||
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| + | == Input == | ||
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| + | The SIE burnup scheme can be chosen with the [[Input syntax manual#set sie|set sie]] input card | ||
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== Implementation == | == Implementation == | ||
Revision as of 08:07, 29 September 2017
The Stochastic Implicit Euler (SIE) burnup scheme is an alternative burnup scheme that can be used if the traditional predictor-corrector burnup schemes in Serpent exhibit unstable behavior.
Background
The theoretical background of the SIE scheme is described in [1]
Input
The SIE burnup scheme can be chosen with the set sie input card
Implementation
Usage
Noteworthy things
- No neutron transport solution is actually calculated using the final concentrations for a certain point.
References
- ^ Dufek, J., Kotlyar, D. and Shwageraus, E. "The stochastic implicit Euler method – A stable coupling scheme for Monte Carlo burnup calculations", Ann. Nucl. Energy, 60 (2013) 295-300
