The Effect of Ductile-Lithic Sand Grains, Overpressure and Secondary Dissolution on Porosity and Permeability and Their Relevance to Hydrocarbon Exploration in Askale Sub-Basin, East Anatolia, Turkey
Titel:
The Effect of Ductile-Lithic Sand Grains, Overpressure and Secondary Dissolution on Porosity and Permeability and Their Relevance to Hydrocarbon Exploration in Askale Sub-Basin, East Anatolia, Turkey
Auteur:
Buyukutku, Aynur Gecer Sahınturk, Omer
Verschenen in:
Energy sources. Part A, Recovery utilization and environmental effects
Paginering:
Jaargang 28 (2006) nr. 11 pagina's 1027-1038
Jaar:
2006-08-01
Inhoud:
Ductile lithic grain, secondary porosity, temperature, and overpressure control porosity and permeability in the Mio-Pliocene and Upper Oligocene sandstones of the Askale sub-basin in East Anatolia. Ductile lithic grains account for between approximately 60-90% of the original sand grain population. There is a pronounced loss of porosity with increasing bruial depth in this sub-basin. At depths of less than 3000 m, this is due solely to ductile-lithic grain compaction where the rate of porosity loss of with depth increases with increasing ductile-lithic grain content. But at depths greater than 3000 m, the steep porosity increases with depth due to secondary solution activities and overpressure in the Askale sub-basin in East Anatolia. Secondary porosity is a common diagenetic feature in the more deeply buried (> 3000 m) sediments in the Askale sub-basin. The secondary porosity arises principally from dissolution of feldspar, to a lesser extent, of the quartz (approximately 10-30%). Overpressure is due to tectonic stress. Reservoir quality is thus controlled by secondary solution activities, overpressure, temperature (geothermal gradient) and depth of burial in the Askale sub-basin in East Anatolia Basin.