Litcius/Paper detail

New Gas Tracer Convection–Diffusion Model between Wells in Heavy Oil Reservoirs

Dianfa Du, Yaozu Zhang, Xin Liu, Lina Zhang, Lichuan Ren, Peng Liu

2021ACS Omega10 citationsDOIOpen Access PDF

Abstract

was introduced to describe the relationship between the migration velocities of the oil and gas phases in the heavy oil reservoir. Subsequently, a new gas tracer well pattern flow model was also constructed based on the gas tracer linear flow model and verified simultaneously. The results revealed that at a larger partition coefficient, more amounts of gas tracers were distributed in the crude oil, the duration of stagnation was extended, and the start time of tracer production was moved backward. The injection velocity had a very minor effect on the tracer production performance. As the fluid injection rate increased, the duration of gas tracer production was extended; however, after the injection rate reached a certain level, the difference in the arrival time of the peak become minor. The effects of crude oil viscosity on the tracer production were reflected by the breakthrough time, production time, peak concentration, and peak arrival time of the tracer. Compared with the production curve of the crude oil viscosity, the peak of the production curve with high crude oil viscosity has a faster peak time and a large peak value. The reservoir description coefficient mainly affects the peak concentration of tracer production and has very minor effects on the production time and other parameters. The outcomes of this work can be applied in the field of heavy oil development, in particular, for the heavy oil reservoir description and dynamic monitoring.

Topics & Concepts

TRACERPetroleum engineeringSaturation (graph theory)DiffusionFlow (mathematics)Environmental scienceMechanicsGeologyThermodynamicsNuclear physicsMathematicsCombinatoricsPhysicsEnhanced Oil Recovery TechniquesReservoir Engineering and Simulation MethodsHydraulic Fracturing and Reservoir Analysis