Comprehensive Numerical Evaluation of CO2 Huff-n-Puff in an Offshore Tight Oil Reservoir: A Case Study in Bohai Bay Area, China

Abstract

Many reports have presented that in tight formation, the flow mechanism differs from a conventional reservoir, such as molecular diffusion, Pre-Darcy flow behavior, and stress sensitivity. However, for CO2 Huff-n-Puff development, it is a challenge to synthetically research these mechanisms. Considering the above flow mechanisms and offshore engineering background, the development plan optimization becomes a key issue. In this paper, a self-developed simulator that satisfies research needs is introduced. Then, based on experimental results, the simulation is launched to analyze the effects of CO2 diffusion, Huff-n-Puff period, and permeability heterogeneity. The results indicate that molecular diffusion makes a positive contribution to the oil recovery factor. Additionally, for offshore reservoirs, limited to the development cost and CO2 facilities corrosion, when the total Huff-n-Puff time is constant, the ratio of 0.5-1.0 between the Huff period and the Puff period in every cycle performs better. Finally, the greater heterogeneity in permeability is much more favorable for the CO2 Huff-n-Puff because of more intensive transport processes in formation. These different scenarios can increase the understanding of the CO2 Huff-n-Puff in tight oil offshore reservoirs.