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Optimal time advancing dispersion relation preserving schemes |
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| Authors: | Manoj K. Rajpoot Tapan K. Sengupta Pravir K. Dutt |
| Affiliation: | 1. Department of Mathematics and Statistics, India;2. Department of Aerospace Engineering, I.I.T., Kanpur, UP, India |
| Abstract: | In this paper we examine the constrained optimization of explicit Runge–Kutta (RK) schemes coupled with central spatial discretization schemes to solve the one-dimensional convection equation. The constraints are defined with respect to the correct error propagation equation which goes beyond the traditional von Neumann analysis developed in Sengupta et al. [T.K. Sengupta, A. Dipankar, P. Sagaut, Error dynamics: beyond von Neumann analysis, J. Comput. Phys. 226 (2007) 1211–1218]. The efficiency of these optimal schemes is demonstrated for the one-dimensional convection problem and also by solving the Navier–Stokes equations for a two-dimensional lid-driven cavity (LDC) problem. For the LDC problem, results for Re=1000 are compared with results using spectral methods in Botella and Peyret [O. Botella, R. Peyret, Benchmark spectral results on the lid-driven cavity flow, Comput. Fluids 27 (1998) 421–433] to calibrate the method in solving the steady state problem. We also report the results of the same flow at Re=10,000 and compare them with some recent results to establish the correctness and accuracy of the scheme for solving unsteady flow problems. Finally, we also compare our results for a wave-packet propagation problem with another method developed for computational aeroacoustics. |
| Keywords: | DRP property Error propagation Explicit Runge&ndash Kutta (RK) schemes Optimized Runge&ndash Kutta (ORK) schemes Navier&ndash Stokes equations Lid driven cavity (LDC) problem |
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