Novel numerical analysis for simulating the generalized 2D multi-term time fractional Oldroyd-B fluid model

Abstract: In this paper, we consider the finite difference method for the generalized two-dimensional (2D) multi-term time-fractional Oldroyd-B fluid model, which is a subclass of non-Newtonian fluids. Different from the general multi-term time fractional equations, the generalized fluid equation not only has a multi-term time derivative but also possess a special time fractional operator on the spatial derivative. Firstly, a new discretization of the time fractional derivative is given. And a vital lemma, which plays an important role in the proof of stability, is firstly proposed. Then the new finite difference scheme is constructed. Next, the unique solvability, unconditional stability, and convergence of the proposed scheme are proved by the energy method. Numerical examples are given to verify the numerical accuracy and efficiency of the numerical scheme as compared to theoretical analysis, and this numerical method can be extended to solve other non-Newtonian fluid models.