NUMERICAL MODELING OF ENHANCED HEAVY OIL EXTRACTION USING GEOTHERMAL ENERGY

Abstract

Oil has been used in industry, but EGS are novel. It takes technology to generate steam, oil, and power from diverse sources. Geothermal is renewable, the Upper reservoir geothermal and deep reservoir micro-heavy oil systems increase EGS oil extraction. Simulations of EGS and heavy oil reservoir steam injection are examined. Three-dimensional, three-phase numerical models improve heavy oil reservoir EGS/reservoir development and parameter sensitivity. The fracture and plasticity model were utilised to design a new heat transfer control equation for heavy oil reservoirs with steam injection fluid behaviour using thermal fluid properties under change law situations during heavy oil steam flooding contingency building. EGS water-flood recovery numerical modelling optimises thickener-EGS collaboration, reservoir, fracturing, well space, heat removal, and steam injection flooding.

Temperature impacts well spacing, injection, and reservoir permeability. Standard optimisation sensitivity testing aids EGS. EGS field optimisation increases thermal extraction efficiency and energy output by optimising reservoir, fracture, and well spacing. Finally, well-spacing models optimise EGS/heavy oil co-development and secondary steam recovery requires horizontal wells. Another well's surface water steam powers a turbine. Many components of the analysis model can be used to assess and, more importantly, design energy, steam, and oil production potential. The main source of energy is steam from Wells. The steam output is more significant than oil because steam drives energy turbines. After heating the turbine, the steam is injected into the heavy oil reservoir by lowering or increasing the temperature to control the steam temperature of the oil flow. Computer-Modeling Group, Inc.'s reservoir simulation tool, CMG, is used for simulation forecasting to predict better technical and engineering results for energy, steam, and oil. By establishing a strong and stable connection between the enhanced geothermal system (EGS) and enhanced oil recovery (EOR) systems, mathematical models are developed that show initial concentration, fracture length, surface water injection rate, steam production, reservoir energy, and oil production to achieve stable production of energy, steam, and oil.