The accuracy, efficiency, and stability of three numerical models with application to open ocean problems
DOI10.1016/0021-9991(80)90111-4zbMath0495.76010OpenAlexW2011838607MaRDI QIDQ5966544
Allan R. Robinson, Dale B. Haidvogel, E. E. Schulman
Publication date: 1980
Published in: Journal of Computational Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/0021-9991(80)90111-4
linear and nonlinear Rossby wavesclosed domainforced nonlinear box modesinviscid barotropic vorticity equationlinear and nonlinear box modeslimited-area calculations for ocean
Hydrology, hydrography, oceanography (86A05) Research exposition (monographs, survey articles) pertaining to fluid mechanics (76-02) Basic methods in fluid mechanics (76M99) Stability and instability of geophysical and astrophysical flows (76E20)
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Cites Work
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- Arakawa's method is a finite-element method
- The accurate solution of Poisson's equation by expansion in Chebyshev polynomials
- A simple boundary condition for unbounded hyperbolic flows
- On the initial-boundary value problem of some geophysical fluid flows
- Computational design for long-term numerical integration of the equations of fluid motion: two-dimensional incompressible flow. Part I
- Finite Element Models for Ocean Circulation Problems
- Theoretical and Practical Aspects of Some Initial Boundary Value Problems in Fluid Dynamics
- Comparison of Pseudospectral and Spectral Approximation
- Accelerating the Convergence of Discretization Algorithms
