Fourth Order Partitioned Methods Designed for the Time Integration of Atmospheric Models
Journal article, 2023
In this paper we derive a fourth order two step Runge-Kutta method with four stages, for additively partitioned systems of ordinary differential equations. Our main objective is that it will be useful as a horizontally explicit and vertically implicit (HEVI) method for atmospheric models. In our method the diagonal coefficients in the implicit part are all equal, and the HEVI-stability properties seem to be excellent. Further, the accuracies obtained for two simple test problems, used with different resolutions and integration intervals, considerably surpass those of a third order one step Runge-Kutta method also with four stages, used for comparison.
HEVI
Atmospheric model
Two step Runge-Kutta method
Partitioned method
Time integration
Author
Göran Christer Starius
Chalmers, Mathematical Sciences, Analysis and Probability Theory
Tellus, Series A: Dynamic Meteorology and Oceanography
0280-6495 (ISSN) 1600-0870 (eISSN)
Vol. 75 1 172-178Subject Categories
Aerospace Engineering
Computational Mathematics
Computer Science
DOI
10.16993/tellusa.342