Numerical Solver for the Boltzmann Equation with Self-adaptive Collision Operators
Reporter:
Yanli Wang, Associate Professor, Beijing Computational Science Center
Inviter:
Jizu Huang, Associate Professor
Subject:
Numerical Solver for the Boltzmann Equation with Self-adaptive Collision Operators
Time and place:
15:30-16:30 October 28(Friday), Z311
Abstract:
We use the Burnett spectral method to solve the Boltzmann equation whose collision term is modeled by separate treatments for the low-frequency part and high-frequency part of the solution. For the low-frequency part representing the sketch of the distribution function, the binary collision is applied, while for the high-frequency part representing the finer details, the BGK approximation is applied. The parameter controlling the ratio of the high-frequency part and the low-frequency part is selected adaptively on every grid cell at every time step. This self-adaptation is based on an error indicator describing the difference between the model collision term and the original binary collision term. The indicator is derived by controlling the quadratic terms in the modeling error with linear operators. Our numerical experiments show that such an error indicator is effective and computationally affordable.