Litcius/Paper detail

Investigating microscopic seepage characteristics and fracture effectiveness of tight sandstones: a digital core approach

Jing Li, Xiaorong Li, Mingshui Song, Huimin Liu, Yongcun Feng, Chen Liu

2020Petroleum Science28 citationsDOIOpen Access PDF

Abstract

Abstract Microscopic seepage characteristics are critical for the evaluation of tight sandstone reservoirs. In this study, a digital core approach integrating microscopic seepage simulation and CT scanning was developed to characterize microscopic seepage and fracture effectiveness (the ratio of micro-fractures that contributes to fluid flow) of tight sandstones. Numerical simulations were carried out for characterizations of tight sandstones. The results show that the axial permeability of the investigated cylindrical tight sandstone from Junggar Basin in China is 0.460 μm 2 , while the radial permeability is 0.3723 μm 2 , and the axial and radial effective fracture ratios are 0.4387 and 0.4806, respectively, indicating that cracks are not fully developed and the connectivity between micro-cracks is poor. Directional permeability that is difficult to measure by laboratory experiments can be obtained readily using the proposed method in this paper. The results provide important information for improving the exploration and development of tight sandstone reservoirs.

Topics & Concepts

GeologyTight gasPermeability (electromagnetism)Sichuan basinFracture (geology)Geotechnical engineeringPetrologyPetroleum engineeringHydraulic fracturingGeochemistryMembraneGeneticsBiologyHydraulic Fracturing and Reservoir AnalysisGroundwater flow and contamination studiesEnhanced Oil Recovery Techniques