Abstract
Carbonate rocks store half of the world’s proven oil reserves. Genesis and postdepositional diagenetic processes define the porous network topology and the matrix permeability. This study compiles a database of porosity, specific surface, mercury porosimetry, and permeability values extracted from published sources and complements the database through a focused experimental study. Specific surface and porosity combine to estimate the pore size (Dsur). Permeability versus Dsur data cluster along a single trend with a slope of 2 in a log–log scale, which is in agreement with the Kozeny–Carman model. Discordant data points correspond to samples with dual porosity or broad pore-size distributions with long tails, where flow channels along larger interconnected pores. Indeed, the detailed analysis of all the porosimetry data in the database shows that permeability correlates best with the pore size D80, that is, the 80th percentile in pore-size distributions. Once again, the best fit is a power function in terms of (D80)2, analogous to Kozeny–Carman. The prediction uncertainty using D80 is one order of magnitude and has the same degree of uncertainty as more complex models and analyses. This observation suggests an irreducible uncertainty of one order of magnitude in permeability estimation from index properties such as porosity, mercury porosimetry, and specific surface probably resulting from specimen preparation effects, inherent physical differences in permeation versus invasion, and difficulties in data interpretation. These estimates of permeability are most valuable when specimens are limited to small sizes, such as cuttings.
Highlights
The world energy demand has steadily increased during the last century, with an additional 30% increase in demand predictedManuscript received September 16, 2017; provisional acceptance October 31, 2017; revised manuscript received March 18, 2018; revised manuscript provisional acceptance April 26, 2018; 2nd revised manuscript received July 8, 2018; 2nd revised manuscript provisional acceptance October 29, 2018; 3rd revised manuscript received January 14, 2019; 3rd revised manuscript provisional acceptance January 30, 2019; 4th revised manuscript received February 19, 2019; final acceptance May 2, 2019
Alejandro Cardona received his M.Sc. from King Abdullah University of Science and Technology (KAUST) and his B.S. from the Universidad Nacional de Colombia. He is currently pursuing his doctoral studies in energy resources and petroleum engineering at KAUST
His research focuses on the understanding of flow-related phenomena in porous media with an emphasis on fractured carbonate rocks
Summary
The world energy demand has steadily increased during the last century, with an additional 30% increase in demand predictedManuscript received September 16, 2017; provisional acceptance October 31, 2017; revised manuscript received March 18, 2018; revised manuscript provisional acceptance April 26, 2018; 2nd revised manuscript received July 8, 2018; 2nd revised manuscript provisional acceptance October 29, 2018; 3rd revised manuscript received January 14, 2019; 3rd revised manuscript provisional acceptance January 30, 2019; 4th revised manuscript received February 19, 2019; final acceptance May 2, 2019. Alejandro Cardona received his M.Sc. from KAUST and his B.S. from the Universidad Nacional de Colombia. He is currently pursuing his doctoral studies in energy resources and petroleum engineering at KAUST. Juan Carlos Santamarina received his Ph.D. from Purdue University, his M.Sc. from the University of Maryland, and his CE from Universidad Nacional de Cordoba Argentina. He explores the foundations of subsurface processes using particle- and pore-scale testing methods combined with high-resolution geophysical process monitoring systems and inversion techniques. The combined experimental-numerical framework supports developments in the field of energy geotechnology, with contributions to resource recovery as well as energy and waste geostorage
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