Numerical Modeling of Heavy-Oil Recovery Using Electromagnetic Radiation/Hydraulic Fracturing Considering Thermal Expansion Effect

Abstract: Production of heavy oil from deep/tight formation using traditional technologies (“cold” production, injection of hot steam, etc.) is ineffective or inapplicable. An alternative is electromagnetic (EM) heating after fracturing. This paper presents the results of a numerical study of heavy oil production from a well with hydraulic fracture under radiofrequency (RF) EM radiation. Two parameters ignored in our previous modeling studies, namely adiabatic effect and the thermal expansion of oil, are considered in t… Show more

“…7,8 Generally, heavy oil is produced through cold or thermal production technologies. 9 Thereinto, thermal recovery, cyclic steam stimulation (CSS) in particular, has been implemented in 75% of heavy oil-bearing reservoirs in China. 10,11 Steam with high temperatures of 200−300 °C and pressures up to 11 MPa is injected into target reservoirs.…”

Diffusion and Dissolution Behaviors of CO₂, CH₄, and N₂ in Heavy Oil under High-Temperature and -Pressure Conditions: Insights into Heavy Oil Production via Multithermal Fluid Stimulation

“…7,8 Generally, heavy oil is produced through cold or thermal production technologies. 9 Thereinto, thermal recovery, cyclic steam stimulation (CSS) in particular, has been implemented in 75% of heavy oil-bearing reservoirs in China. 10,11 Steam with high temperatures of 200−300 °C and pressures up to 11 MPa is injected into target reservoirs.…”

Diffusion and Dissolution Behaviors of CO₂, CH₄, and N₂ in Heavy Oil under High-Temperature and -Pressure Conditions: Insights into Heavy Oil Production via Multithermal Fluid Stimulation

Effect of microwave radiation time on the composition of gas produced from microwave assisted heavy oil upgrading