SUBSOIL EXPLORATION•• GEOMECHANICS GEOHYDROLOGY

Prof. DI Dr. techn. Peter Waibel, State Certified Civil Engineer

KORALM, - RAILWAY LINE, WETTMANNSTÄTTEN - ST. ANDRÄ SECTION

Client: ÖBB-Infrastruktur Bau AG (Austrian Railways Infrastructure Construction AG) Development Period: since 1996

THE PROJECT OUR FUNCTION

With the new Line BGG was commissioned with the hydro- Paierdorf exploration shaft: between Graz and Klagenfurt, an geological and geotechnical workman- For this 120 m deep shaft, that has essential section of the european railway ship of the tertiary tunnel sections and already been completed, a particularly system will be implemented. open areas. During the planning phases intensive geological and hydrogeological Within the 43.8 km long Wettmann- (route selection, environmental impact supervision was essential during the stätten - St. Andrä section (the core of assessment, and the tender for the design and execution phases. This was the line) the , with a length exploration structures), the following necessary due to the predominant of 32.8 km, is situated. tasks were carried out: subsoil and groundwater situation: The double-tube tunnel cuts through q Hydrogeological field mapping Granular soil, with varying grain sizes, polymetamorphic crystalline rock of the q Planning and handling of several and several groundwater storeys exist all and has an overburden of up to subsoil exploration campaigns the way to the bottom of the shaft. 1,200 m. Near the tunnel entrances, q Interpretation of aerial photographs Already during the planning stage of the tertiary sediments of different grain sizes and geophysical investigations tender, BGG established a detailed and rock with minor strength exists. This q Numeric hydraulic modelling system for the lowering of the ground- material has to be crossed over a total q Compilation of geotechnical and water of the different groundwater length of 8.1 km with an overburden of hydrogeological expertises storeys. During excavation, an intensive up to 150 m. q Geological documentation of the supervision and control of these ground- For further exploration, three tunnels exploration structures during exca- water lowering measures, based on geo- (total length of 10.8 km) and two shafts vation logical documentation by own employ- (depth of 120 m and 60 m) are being q Coordination and implementation of ees, took place. As a result, this excavated. the preservation of the hydrogeological structural element was completed evidence without major problems. q

View into the Paierdorf shaft during excavation

Reference Sheet July 2005