Parameterization for regional energy balance climate modelling over Hungary

This paper describes a dynamic parameterization for a simple global climate model that is based on the planetary boundary layer equations of horizontal motion. This new parameterization resolves many of the problems associated with other representations of the general circulation in simple climatic

A soil-vegetation-atmosphere-transfer scheme, which solves the coupled system of the Surface Energy and Water Balance (SEWAB) equations considering partly vegetated surfaces, is presented. In terms of complexity, SEWAB is similar to many other land±surface schemes with respect to the calculation of

Representation of sub-element scale variability in snow accumulation and ablation is increasingly recognized as important in distributed hydrologic modelling. Representing sub-grid scale variability may be accomplished through numerical integration of a nested grid or through a lumped modelling appr