Numerical simulation study on hydraulic fracture propagation in heavy oil reservoir with THM coupling

Abstract

The aim of the study involves examining the effect of heavy oil viscosity on fracture geometry in detail by establishing a heavy oil fracturing model and conventional fracturing model based on thermal-hydraulic-mechanical (THM) coupled theory, Walther viscosity model, and K-D-R temperature model. The results show that temperature exhibits the most significant influence on the heavy oil viscosity while the influence of pressure is the least. The special viscosity distribution results in significant differences in pore pressure, oil saturation, and changing trends between these two models. In the heavy oil reservoir fracturing model, the thermal effect completely exceeds the influence of pore elasticity, and the values of the fracture length, width, and static pressure exceed those calculated in the conventional fracturing model. Thus, a comparison of the measured values indicates that the results obtained by considering viscosity as a function of temperature and pressure are more accurate. [Received: February 9, 2018; Accepted: August 8, 2018]