A new loading system to limit segregation of a limestone-coal mix loaded in a cylindrical hopper (2012)
SOLVAY S.A. wanted to characterize the potential segregation of a mix of blocks (limestone + coal) charged into a cylindrical hopper. An intermediate loading structure between the conveyor and the hopper is added to limit segregation observed in a previous study.
Modelling of the excavation of two intersecting tunnels (2011)
In the framework of the extension of the Meuse/Haute‐Marne Underground Research Laboratory (France), Itasca Consultants SAS was commissioned by EIFFAGE to verify the tunnel stability and the design of the support structures installed during the excavation of two intersecting tunnels (Figure 1).In the framework of the extension of the Meuse/Haute‐Marne Underground Research Laboratory (France), Itasca Consultants SAS was commissioned by EIFFAGE to verify the tunnel stability and the design of the support structures installed during the excavation of two intersecting tunnels (Figure 1).
Size-distribution analysis of potentially formed blocks during the primary fragmentation of a fractured rock (2011)
The in‐situ primary fragmentation that occurs during mining operations (using caving methods) highly depends on pre‐existing fractures. Slip along fracture planes and breakage of rock bridges are the main controls of the fragmentation and block formation process during caving.
Jet Grouting Wall with Anchors (2011)
Keller Group constructed a 13 m deep underground parking lot. After many trials utilizing concrete diaphragm panels for ground support, this approach was found to be impractical. This was mainly due to the high aggregate-size variability of the morainic deposit (unconsolidated glacial debris) at the site. In such complex geotechnical situations jet grouting offers a valid alternative to traditional support systems.
Discrete modelling of fibrous structure from 3D tomography images and fiber segmentation process (2011)
Lafarge Center of Research is interested in analysing the microstructure of a fibrous media and its consequence on the resulting macroscopic behavior, for optimization purposes.
Observational Method for Deep Excavation (2010)
The Observational Method (OM) is a standard practice to support/guide design of infrastructure in sensitive environments, in particular for large excavations in urban areas. The example presented here is one of several cases from the construction of a recent subway line in Rome.
Depressurizing an Underground Ore Body at the McArthur River Mine in Northern Saskatchewan, Canada (2008)
Pre‐mining depressurizing of a deep ore body at the McArthur River mine, the largest single producer of uranium in the world, was considered to decrease the risk associated with mining and increase the ground stability and the amount of ore that could be extracted. The challenge was to depressurize the high‐grade ore bodies without propagating a significant amount of drawdown to the surface where impacts on surface‐water resources and the associated aquatic habitat would be significant environmental issues. The objective was to evaluate the technical and economic feasibility of depressurizing the ore body.
Analysis of MSE Retaining Wall (2008)
A section of retaining wall H on Trunk Highway 41 (TH41) south of the junction with TH212 in Chaska, Minnesota, "pushed out" following significant rainfall during construction. The rainfall event occurred prior to the pavement placement with the fill material exposed. The movement (horizontal displacement) of the wall that occurred after the rainfall event was permanent and visible.
Mechanical behavior of CBF-K canisters stored at CSA under internal gas pressure ()
In order to update the acceptance criteria of reactive metals in the Aube repository center (“CSA”, France) for low and intermediate-level short-lived radioactive waste, Itasca teamed with EGIS to study the mechanical behavior of graveled (OG) [1] and concreted (OB) structures containing concrete or steel canisters.
Vibration influence in the agglomeration of compressed powders ()
For aluminous cement manufacturers, the raw materials are becoming scarcer due to the depletion or loss of natural resources. The extraction of the raw material, its conditioning and transport generate dust, which is largely not reused at present. KERNEOS Aluminate Technologies wishes to recycle these bauxite fines by compacting them with the ambition of creating a new recycling process for fine mineral particles. All the partners in the PARC project contributed to the development of a new compaction technology.