BOUNDARY-LAYER FLOW OVER ANALYTICAL 2-DIMENSIONAL HILLS - A SYSTEMATIC COMPARISON OF DIFFERENT MODELS WITH WIND-TUNNEL DATA

Two mass consistent models (MATHEW and MINERVE) and two dynamic linearize models (MS3DJH/3R and FLOWSTAR) are used to simulate the mean flow over two-dimensional hills of analytical shape and of varying slope. The results are compared with detailed wind tunnel data (RUSHIL experiment at US EPA). Different numerical experiments have been performed, varying input data and control parameters, to test the data-processing methodology and to evaluate the minimum input data (for mass consistent models only) necessary to obtain a reliable flow field. The models behave differently according to the physical assumptions made and numerical procedure used: an assessment is then made in order to identify the proper solution for the different conditions of topography and wind data.