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.
翻译:我们使用伯奈特光谱法来解决波尔兹曼方程式的碰撞术语,该方程式的碰撞术语以该方程式的低频部分和高频部分的分别处理为模型。对于代表分布函数草图的低频部分,应用了二进制碰撞,而对于代表细细细节的高频部分,则应用了BGK近似值。控制高频部分和低频部分比率的参数在每一个电格单元格的每个步骤中都通过适应性选择。这一自适应基于一个错误指标,该错误指标描述了模型碰撞术语与原始的二进制碰撞术语之间的差异。该指标是通过控制与线性操作员的模型错误中的四进制术语而得出的。我们的数字实验表明,这种错误指标是有效和可计算得起的。