A Class of Monotonic Shock-Capturing Difference Schemes.
Abstract
Two principal approaches used in the numerical study of unsteady inviscid compressible flow problems -- shock-fitting and shock-capturing -- are discussed briefly. This paper presents a new example of the latter approach. The proposed method is monotonic and provides second-order accuracy in regions where the concept of order is meaningful. The method is simple and fast running. The monotonicity of a standard finite difference scheme (the well-known MacCormack scheme was chosen in the paper) is achieved by means of a local conservative smoothing operation. It eliminated nonphysical ripples, which usually appear near discontinuities when nonmonotonic schemes are used. The method is similar to one developed by Boris and Book and gives essentially the same results, but is much simpler and faster. The proposed method is compared to some other finite difference schemes. Two one-dimensional tests are used: a linear convection equation and a shock tube problem. Finally, the example of nonsteady three-dimensional scattering of a shock wave by a step obstacle of finite width is discussed. (Author)
Document Details
- Document Type
- Technical Report
- Publication Date
- Jul 30, 1981
- Accession Number
- ADA105601
Entities
People
- A. A. Fursenko
- A. I. Zhmakin
Organizations
- United States Naval Research Laboratory