Reference : Using ghost rock weathering as a new tool for quarry management
Scientific congresses and symposiums : Unpublished conference
Physical, chemical, mathematical & earth Sciences : Earth sciences & physical geography
http://hdl.handle.net/2268/130594
Using ghost rock weathering as a new tool for quarry management
English
Fischer, Valentin mailto [Université de Liège - ULg > Département de géologie > Paléontologie animale et humaine >]
Vergari, Anne []
Oct-2012
No
No
International
Ghost-rock karst symposium. Different points of view on karstogenesis; fundamental and applied aspects
7-11 October 2012
Université de Mons (int. al.)
Han-sur-Lesse
Belgium
[en] Ghost-rock weathering ; Karstogenesis ; Applied geology ; Structural geology ; Tournai ; Limestone
[en] Although karstic weathering (sensu lato) is a major concern for the exploitation of limestone quarries, the importance, spatial extension, and intensity of this natural phenomenon are rarely investigated because of the lack of applicable technique to assess these variables other than subsurface geophysical exploration methods. Here, we propose to use the intrinsic property of ghost-rock weathering, tectonic control, to predict the degree and type of weathering of the reserve of two contiguous limestone quarries in the Tournai area (western Belgium). First, we revised the macrotectonic setting of these quarries, creating five tectonic entities. Then, we built an extensive fracture database (1357 ‘events’), recording fracture direction, dip, width, height, mineralization, and weathering. Then, we calculated a “Sterile Index” that is a simple function of the relative occurrence and mean width of karstified fractures. The rose diagrams of fracture orientations are contrasted between tectonic entities and so are the intensity and the dominant type of weathering: tectonic entities with widely dispersed fracture directions are significantly more weathered than entities with narrowly dispersed rose diagrams. Preliminary tests indicate fracture orientation and weathering are consistent within the tectonic entities, allowing extrapolation to quarries reserves. Ultimately, this technique can be used to predict the rock waste volume of the quarries reserves (when combined with geophysical exploration methods) and manage the development of the quarries accordingly.
Centre de Géosciences
Researchers ; Professionals ; Students ; General public
http://hdl.handle.net/2268/130594

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