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Title: An adaptive alpha for the implicit Monte Carlo equations

Conference ·
OSTI ID:1043450
 [1]
  1. Los Alamos National Laboratory
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During the derivation of Fleck and Cumming's Implicit Monte Carlo (IMC) equations, a global user parameter {alpha} is introduced that may be adjusted in the range 0.5 {<=} {alpha} {<=} 1.0 in order to control the degree of 'implicitness' of the IMC approximation of the thermal radiative transfer equations. For linear (and certain nonlinear) problems, it can be shown that the IMC equations are second-order accurate in the time step size {Delta}{sub t} if {alpha} = 0.5, and they are first-order accurate otherwise. However, users almost universally choose {alpha} = 1 in an attempt to avoid unphysical temperature oscillations that can occur for problem regions in which the optical time step is large. In this paper, we provide a mathematically motivated, adaptive value of {alpha} that dynamically changes according to the space- and time-dependent problem data. We show that our {alpha} {yields} 0.5 in the limit of small {Delta}{sub t}, which automatically produces second-order accuracy. In the limit of large time steps, {alpha} > 1; this retains the 'fully implicit' time behavior that is usually employed throughout the entire problem. An adaptive {alpha} also has the advantages of being trivial to implement in current IMC implementations and allowing the elimination of a user input parameter that is a potential source of confusion. Test problems are presented to demonstrate the accuracy of the new approach.

Research Organization:
Los Alamos National Laboratory (LANL), Los Alamos, NM (United States)
Sponsoring Organization:
USDOE
DOE Contract Number:
AC52-06NA25396
OSTI ID:
1043450
Report Number(s):
LA-UR-10-08113; LA-UR-10-8113; TRN: US201214%%7
Resource Relation:
Conference: NECDC 2010 ; October 18, 2010 ; Los Alamos, NM
Country of Publication:
United States
Language:
English

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Related Subjects

97 MATHEMATICAL METHODS AND COMPUTING
ACCURACY
APPROXIMATIONS
EQUATIONS
MATHEMATICAL SOLUTIONS
MONTE CARLO METHOD
OSCILLATIONS
RADIANT HEAT TRANSFER
SPACE DEPENDENCE
TIME DEPENDENCE