Abstract
Cyclic CO2 flooding is an efficient method to enhance oil recovery in ultralow permeability reservoirs. As the demand for low carbon economy development, co-optimization of CO2 storage and utilization should be considered. In this research, initially a comprehensive optimization method was proposed, which co-optimize oil recovery and CO2 storage by different weighting factors. Then, a series of core flooding experiments were performed using the core samples collected from Changqing oilfield, which is a ultralow permeability reservoir with heterogeneity and micro-cracks, CO2 injection parameters of slug size and Injection-Soaking Time Ratio (ISR) were optimized. The results revealed that the optimal injection parameters changed for different optimization objectives. In the case where equal important to oil recovery and CO2 storage were considered, the optimum CO2 injection parameters in the ultralow permeability reservoirs were 0.03PV for slug size and 1:1 for ISR. Comparing the method of oil recovery optimization (ω 1 = 1) to co-optimization of oil recovery and CO2 storage (ω 1 = ω 2 = 0.5), oil recovery was reduced by 8.93%, CO2 storage was significantly increased by 25.85%. The results provide an insight into parameter optimization of CO2 enhanced oil recovery design.
Highlights
With advancement in the world petroleum industry, the development of low permeability oil fields has attracted more attention
In order to investigate the viability of cyclic CO2 injection processes in ultralow permeability reservoirs and to optimize the injection parameters based on the combination of oil recovery and CO2 storage, a new objective function was proposed which includes two parts of oil recovery factor and CO2 storage factor, every part has distinct weighting factors (x1, x2), and the weighting factors are changed for different optimization objectives
The results indicated that the maximum oil recovery factor of 57.86% is obtained at Injection-Soaking Time Ratio (ISR) of 1:1.This is higher than the oil recovery obtained from ISR 2:1 and 1:2, because the soaking time mainly affects the amount of CO2 dissolved in the oil phase
Summary
With advancement in the world petroleum industry, the development of low permeability oil fields has attracted more attention. CO2 emission reduction has increasingly gained attention while CO2 storage efficiency is very important in the current. In order to investigate the viability of cyclic CO2 injection processes in ultralow permeability reservoirs and to optimize the injection parameters based on the combination of oil recovery and CO2 storage, a new objective function was proposed which includes two parts of oil recovery factor and CO2 storage factor, every part has distinct weighting factors (x1, x2), and the weighting factors are changed for different optimization objectives. The result provides guidance for field design and operation of cyclic CO2 flooding in ultralow permeability reservoirs
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