title: |
A new gravity-wave parameterization for atmospheric circulation models with full respect
to transience and conservation laws |
|
contributing persons: |
|
contributing corporate bodies: |
Universität Rostock[Grad-verleihende Institution] |
|
38329-6 |
Universität Rostock. Mathematisch-Naturwissenschaftliche Fakultät[Grad-verleihende Institution] |
|
2147083-2 |
|
|
abstract: |
In this thesis, we present a new framework for gravity wave parameterizations, that
relaxes the steady state approximation - the Radiative Transfer gravity wave Parameterization
(RTP). This transient parameterization provides the local energy density of a wave
field, from which the wave-mean flow interactions are calculated. Results of idealised
simulations show that the wave field behaves as theoretically expected in different
background configurations. This all takes place in consideration of the conservation
of energy and momentum.
[English] |
|
document type: |
|
institution: |
Faculty of Mathematics and Natural Sciences |
|
language: |
|
subject class (DDC): |
|
extent: |
1 Online-Ressource (xi, 122 Seiten)
|
|
|
publication / production: |
Rostock
Rostock: Universität Rostock
|
2023
|
|
statement of responsibility: |
vorgelegt von Matthäus Mai |
|
|
identifiers: |
|
|
access condition: |
|
license/rights statement: |
all rights reserved This work may only be used under the terms of the German Copyright Law (Urheberrechtsgesetz). |
|
|
RosDok id: |
rosdok_disshab_0000003179 |
created / modified: |
09.08.2024 / 10.08.2024
|
metadata license: |
The metadata of this document was dedicated to the public domain (CC0 1.0 Universal Public Domain Dedication). |