Title :
A defect-correction method based on equal-order finite elements for the incompressible flows (II)
Author :
Wu, Kaiteng ; Zeng, Deqiang ; Qin, Yanmei
Author_Institution :
Key Lab. of Numerical Simulation, Sichuan Provincial Coll., Neijiang, China
Abstract :
Based on stabilized defect-correction method and the stability and convergence of velocities, the property of pressures is emphatically discussed, and the stability and convergence of the method are accordingly proved for the each step. The error estimation results show that the constant in the estimation is independent of the viscosity coefficient but on a reduced viscosity coefficient λ + h , and one step of defect-correction method improves spatial accuracy in the previous step by one power of h. In a general way, combining with the proper timing k, the accuracy is proved to be o(hm) in m - 1 step.
Keywords :
Navier-Stokes equations; estimation theory; finite element analysis; flow instability; viscosity; defect correction method; equal order finite elements; error estimation; incompressible flows; pressure projection; reduced viscosity coefficient; spatial accuracy; velocity convergence; velocity stability; Accuracy; Convergence; Finite element methods; Navier-Stokes equations; Numerical stability; Stability analysis; Viscosity; Reynolds number; defect-correction; incompressible; pressure projection;
Conference_Titel :
Multimedia Technology (ICMT), 2011 International Conference on
Conference_Location :
Hangzhou
Print_ISBN :
978-1-61284-771-9
DOI :
10.1109/ICMT.2011.6002480
