tion present close to the observation site. An example of a complete wind map for a single wind direction is presented on Figure 1. Snow-drift- ing is estimated from wind maps by means of theoretíc relationships between wind and snow-drífting and be referring experimental data on snow-drifting under different condi- tions. The mapping process The mapping process is depend- ent on digital maps and series of weather measurements, and a numerical flow-solver. A 3D digital terrain model is imported into the simulation system, and calculations are done for one wind direction at a time. The number of wind directions is variable, but if wind rose projec- tion is demanded, all main directions need to be simulated, either eight or sixteen directions. Results for each wind direction are displayed on a raster image, describing the wind speed distribution. Also, vectors indicating local wind direction and streamline analysis are available. Raster images can be imported into any CAD system and displayed par- allel with the preferred data. InlD the Wind Dr. Skúli Þórðarson, Civil Engineer Skúli has a C.S. degree in civil engineering from University of lceland and earned his PhD on snow engineering and road plan- ning from NTNU in Trondheim in 2002. Employed at Orion Consulting Engineers since 2002. Introduction Wind climate affects daily life in lceland substantially. Both wind and snow-drifting causes delays for road traffic and even road closures in urban and suburban areas and snow-drifting increases the snow removal costs. Wind constrains out- door activity in many developments and snow-drifts may block the entrance to houses. The layout and design of roads and developments affects the local influence of winds. Of high importance, is the aspect and location of buildings and other structures in the landscape, and so is the interaction of buildings and the use of windbreaks. Information on wind climate, such as most fre- quent and strongest wind directions and on snow cover and snow-drift- ing enables designers to choose a suitable design in terms of climate. Wind maps The application of computer simulations and measurements from weather stations now enables wind zone mapping. Wind maps dis- play the spatial distribution of wind speed in the terrain and indicate the influence of buildings and other structures. Measurements from a distant weather station are projected into the observation site, producing a wind rose, as if a weather station was present on the site. Results are presented on maps, showing the wind speed distribution on a colored scale. The wind can be displayed on a semi- transparent layer on top of aerial photographs or other information sheet. Wind roses can be trans- ferred on to any number of observa- tion spots on the site, and the may be transferred over a long distance, should there not be a weather sta- Limitations The wind simulatíons described here

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