Architectural features of fault-controlled karst reservoirs in the Tahe oilfield

Abstract

Based on the analysis of the characteristics of modern karst and paleokarst outcrops, this study summarizes the features of subsurface reservoirs by using core, logging, seismic and production data, establishes the structural model of fault-controlled karst reservoirs, and points out the guiding significance of this structural model for development and production in the Tahe oilfield. Modern karst in southern China shows the three-component structural characteristics of fault-controlled karst which are fault core, damage zone, and host rock. The cavern is developed in the fault core and the fracture-vugs are fully developed. Paleokarst outcrops reveal the evolutionary process of fault-controlled karst reservoirs, the characteristics of caverns along the fault and the surrounding fracture-vuggy features. Seismic structure tensor attributes, ant-track attributes and amplitude spectrum gradient attributes are used to describe the external geometry, caverns, and large-scale fractures of fault-controlled karst reservoirs, and the small fractures and vugs can be described by using cores. According to the characteristics of modern karst, paleokarst and subsurface reservoirs, three architectural patterns of fault-controlled cavern complexes, fault-controlled caverns and fault-controlled vugs are summarized. Different architectural patterns of karst reservoirs lead to different production capacities. The architectural patterns have important guiding significance for new drilling and water or gas injection to improve oil recovery.