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Enhanced cold front propagation due to turbulent mixing (1997)

Becker, A. ; Keuler, K. ; Ewenz, C. M. ; [et al.]

Springer

Meteorology and atmospheric physics 62 (1997), S. 201-214

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ISSN: 1436-5065

Source: Springer Online Journal Archives 1860-2000

Topics: Geography , Physics

Notes: Summary The influence of turbulent friction on the propagation of cold fronts is investigated by numerical simulations using a two-dimensional mesoscale model. We compare the frictional effect with the effects of large-scale shear forcing and energy conversion at the earth's surface and discuss the synergic effect of all three mentioned processes. There is no pure superposition of these effects indicating that nonlinear interaction plays a role. In addition it is possible to show that—depending on the along-front jet—friction does not necessarily slow down the front but can also accelerate it. The direction of the along-front jet within the planetary boundary layer (PBL) is crucial for that question.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01029702

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Orographical modification and large scale forcing of a cold front (1992)

Keuler, K. ; Kerkmann, J. ; Kraus, H. ; [et al.]

Springer

Meteorology and atmospheric physics 48 (1992), S. 105-130

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ISSN: 1436-5065

Source: Springer Online Journal Archives 1860-2000

Topics: Geography , Physics

Notes: Summary The development of a cold front influenced by orography and large scale forcing is examined with a two-dimensional meso-scale model. The model is based on the primitive equations and uses the hydrostatic and anelastic approximations. Gradients of the basic flow and temperature field in the third dimension are taken into account during the simulations. Low diffusive numerical schemes and radiation boundary conditions reduce the numerical errors to an acceptable minimum for a two day simulation and avoid reflections at the upper and lateral boundaries. Frontogenetical forcing is included in the simulations by specifying either a vertically sheared or horizontally convergent basic zonal flow field. Model runs with an idealized cold front were carried out over flat terrain and in the presence of a bell shaped mountain ridge. The simulations show a weakening of the cold front on the windward side of the mountain ridge and a strong reintensification on the leeward side relative to the control runs without topography. Analysis of frontogenesis terms demonstrates the importance of convergence in the ageostrophic circulation and of along-front temperature advection for the development of the cold front. The strong intensification of the cold front on the leeward side of the mountain ridge can only partly be explained by superposition with the mountain induced wave. It is mainly caused by ageostrophic deformation forcing in the strong downward flow of this wave. The results also show that the cold front passage over the mountain ridge is not a continuous process. The formation of a new frontal structure on the leeward side of the mountain ridge, well separated from the primary one, is observed while the initial cold front still exists in the upslope region. Generally nonlinear interactions between the mountain wave and the cold front are the important mechanisms to explain these phenomena.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01029562

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