This time: Protection measures: Risk management and engineering solutions (Session 2)
A session to bring together engineers and scientists to validate real protection structures in numerical simulations to find general solutions from case studies. In short, another excellent example of how theory and practice can be combined. The topics of the session can be roughly summarized in four categories: Pressures and forces of snowpack and avalanches on protective structures, design and construction of protective structures in alpine terrain, hazard zone plans and validation of protective structures, and snow loading as a hazard basis for avalanches and influencing visibility conditions on traffic routes.
Three of these four topic blocks deal with protective structures, i.e. the structural response of engineers to existing hazards caused by snow or avalanches. There are two main types of avalanches: Structures in the avalanche start area and in the run-out area. Both types can be further subdivided into two classes. Blowout protection as a measure against snow deposition by wind in potential avalanche start areas and avalanche start protection, which is intended to prevent the spontaneous release of avalanches. A distinction is made between interception or braking structures and deflection or transfer structures at the outlet of avalanches. Examples of these are catchment dams, braking humps and avalanche breakers, as well as deflection dams, avalanche galleries, tunnels and pipe bridges.
Excursus: Pipe bridges are certainly interesting structures, but are or were rarely built. A prominent example can be found in the Großer Gröben pipe bridge, where a bridge runs relatively flat over a ravine that is prone to avalanches. The idea behind it is that the road virtually passes through an artificial tunnel and is therefore not affected by a possible dust avalanche and there is no closure (Rohrbrücke Großer Gröben).
