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contributor authorLi, Yonghong
contributor authorChang, Julius S.
date accessioned2017-06-09T14:06:04Z
date available2017-06-09T14:06:04Z
date copyright1996/10/01
date issued1996
identifier issn0894-8763
identifier otherams-12411.pdf
identifier urihttp://onlinelibrary.yabesh.ir/handle/yetl/4147748
description abstractThe flux-form advection scheme of Bott is modified for the spherical coordinates, combined with the expanded-polar-zone (EPZ) technique to improve the overall performance of the advection calculations. With the EPZ technique, this Eulerian scheme has comparable efficiency as semi-Lagrangian methods for advection of nonreactive tracers on a sphere but with somewhat better overall numerical accuracy. The conservation of global tracer mass and the, positive definiteness of the algorithm are achieved to machine precision. For the test problem of solid body rotations on a sphere, this scheme shows small numerical diffusion, almost undetectable phase errors, and very little artificial deformation of the test shape even for cross-polar transport. In comparison with some semi-Lagrangian schemes and other high-order Eulerian methods, it shows very competitive performance. Numerical tests also indicate that, without any modifications, it performs just as well on slightly nonuniform Gaussian grid as on uniform grid. For the vertical advection, a fourth-order and two second-order versions of this scheme formulated on a nonuniform grid system have also been derived. The performance of these versions is tested with a nonuniform sigma grid system by using ideal one-dimensional test problems. This accurate numerical scheme is recommended for models where resolving the sharp vertical gradients of atmospheric trace species such as water vapor is important.
publisherAmerican Meteorological Society
titleA Mass-Conservative, Positive-Definite, and Efficient Eulerian Advection Scheme in Spherical Geometry and on a Nonuniform Grid System
typeJournal Paper
journal volume35
journal issue10
journal titleJournal of Applied Meteorology
identifier doi10.1175/1520-0450(1996)035<1897:AMCPDA>2.0.CO;2
journal fristpage1897
journal lastpage1913
treeJournal of Applied Meteorology:;1996:;volume( 035 ):;issue: 010
contenttypeFulltext


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