Difference between revisions of "Coupled multi-physics calculations"

Revision as of 13:33, 3 December 2015

External coupling

Iteration

Multi-physics interface

Power relaxation

Serpent relaxes the power distribution calculated in the iterations using the stochastic approximation based method^[1], where the power distribution at iteration $n$ is calculated by

$P_{\mathrm{rel}}^{n} = P_{\mathrm{rel}}^{n-1} - \frac{s_{n}}{\sum_{i = 1}^{n} s_{n}} d \left(P_{\mathrm{rel}}^{n-1} - P^{n}\right),$

where $P^{n}$ is the unrelaxed power distribution tallied on iteration $n$ , $P_{\mathrm{rel}}^{n-1}$ is the relaxed power distribution after the previous iteration, $s_{i}$ is the active neutron population simulated on iteration $i$ and $d$ is an underrelaxation factor that can be defined by the set relfactor option.

Output

^ Dufek, J. and Gudowski, W. "Stochastic Approximation for Monte Carlo Calculation of Steady-State Conditions in Thermal Reactors", Nucl. Sci. Eng, 152 (2006) 274-283

[1] Dufek, J. and Gudowski, W. "Stochastic Approximation for Monte Carlo Calculation of Steady-State Conditions in Thermal Reactors", Nucl. Sci. Eng, 152 (2006) 274-283

[1]

@@ Line 2: / Line 2: @@
 == Iteration ==
+== Multi-physics interface ==
+See [[multi-physics interface]].
 == Power relaxation ==

Difference between revisions of "Coupled multi-physics calculations"

Revision as of 13:33, 3 December 2015

Contents

External coupling

Iteration

Multi-physics interface

Power relaxation

Output

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