Evolution of caves in porous limestone by mixing corrosion: A model approach.

Dreybrodt, Wolfgang; Romanov, Douchko; Kaufmann, Georg

Geologia Croatica, Vol. 63 No. 2, 2010.

Izvorni znanstveni članak

Evolution of caves in porous limestone by mixing corrosion: A model approach.

Wolfgang Dreybrodt ; Karst Processes Research Group, Institute of Experimental Physics, University of Bremen
Douchko Romanov ; Institute of Geological Sciences, FU Berlin
Georg Kaufmann ; Institute of Geological Sciences, FU Berlin

Puni tekst: engleski pdf 652 Kb

str. 129-135

preuzimanja: 656

citiraj

APA 6th Edition

Dreybrodt, W., Romanov, D. i Kaufmann, G. (2010). Evolution of caves in porous limestone by mixing corrosion: A model approach.. Geologia Croatica, 63 (2), 129-135. Preuzeto s https://hrcak.srce.hr/56937

MLA 8th Edition

Dreybrodt, Wolfgang, et al. "Evolution of caves in porous limestone by mixing corrosion: A model approach.." Geologia Croatica, vol. 63, br. 2, 2010, str. 129-135. https://hrcak.srce.hr/56937. Citirano 04.05.2024.

Chicago 17th Edition

Dreybrodt, Wolfgang, Douchko Romanov i Georg Kaufmann. "Evolution of caves in porous limestone by mixing corrosion: A model approach.." Geologia Croatica 63, br. 2 (2010): 129-135. https://hrcak.srce.hr/56937

Harvard

Dreybrodt, W., Romanov, D., i Kaufmann, G. (2010). 'Evolution of caves in porous limestone by mixing corrosion: A model approach.', Geologia Croatica, 63(2), str. 129-135. Preuzeto s: https://hrcak.srce.hr/56937 (Datum pristupa: 04.05.2024.)

Vancouver

Dreybrodt W, Romanov D, Kaufmann G. Evolution of caves in porous limestone by mixing corrosion: A model approach.. Geologia Croatica [Internet]. 2010 [pristupljeno 04.05.2024.];63(2):129-135. Dostupno na: https://hrcak.srce.hr/56937

IEEE

W. Dreybrodt, D. Romanov i G. Kaufmann, "Evolution of caves in porous limestone by mixing corrosion: A model approach.", Geologia Croatica, vol.63, br. 2, str. 129-135, 2010. [Online]. Dostupno na: https://hrcak.srce.hr/56937. [Citirano: 04.05.2024.]

Sažetak

When water from the surface, e.g. from a lake, fl ows down through porous carbonate rocks, through a region with high hydraulic conductivity and encounters the water table of a phreatic aquifer, both waters mix by diffusion along their boundary. In a carbonate aquifer, where both surface and phreatic waters are saturated with respect to calcite, mixing corrosion causes renewed dissolution capacity

Δceq of the carbonate rock in the diffusion-mixing zone, extending from the boundary separating the phreatic water from the surface water encountering it. A numerical model is presented from which the initial change of porosity in such a diffusion-mixing zone is obtained. The initial change of porosity can be calculated from the local distribution of the mixing ratio, and the second derivative of Δceq with respect to m. m(x,y)is the spatial distribution of the mixing ratio m= Vsurf /(Vsuf+ Vprh), where the V’s assign the corresponding volumes of surface and phreatic water. The second derivative has been calculated for three geochemical scenarios with differing CO2-concentrations of surface and phreatic water by the use of PHREEQC-2. The spatial distribution m(x,y) is obtained by using MODFLOW and MT3DMS in a modelling domain with constant hydraulic conductivity for various fl ow velocities of the phreatic aquifer. The time scale of cave evolution is estimated from the results. Passages of dimensions of about one metre in width and several 10 cm in height, extending in length along the boundary line, where surface and phreatic waters meet, can be created in time scales of 10 000 years. These caves are horizontal with blind ending passages and closely resemble the isolated caves observed in Central West Florida.

Ključne riječi

speleogenesis; porous limestone; mixing corrosion; caves; Florida

Hrčak ID:

56937

URI

https://hrcak.srce.hr/56937

Datum izdavanja:

2.6.2010.

Posjeta: 1.303 *

Prijava i registracija

Geologia Croatica, Vol. 63 No. 2, 2010.

Sažetak

Ključne riječi

Hrčak ID:

URI

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