Efficiency Analysis of Greenhouse Gas Sequestration during Miscible CO2 Injection in Fractured Oil Reservoirs

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• 作者：Japan Trivedi ; Tayfun Babadagli
• 刊名：Environmental Science & Technology
• 出版年：2008
• 出版时间：August 1, 2008
• 年：2008
• 卷：42
• 期：15
• 页码：5473-5479
• 全文大小：350K
• 年卷期：v.42,no.15(August 1, 2008)
• ISSN：1520-5851

文摘

During CO₂ injection into naturally fractured oil reservoirs for enhanced oil recovery, the great portion of oil is recovered by matrix−fracture interaction. Diffusive mass transfer between matrix and fracture controls this process if CO₂ is miscible with matrix oil. Oil expelled from matrix is replaced by CO₂, and the matrix could be potentially a good storage medium for the long-term. For the cooptimization of the oil recovery and CO₂ storage, i.e., maximizing the oil recovery while maximizing the amount of CO₂ stored, we propose an efficiency analysis using a dimensionless term defined as the global effectiveness factor. The Biot number and Thiele modulus were incorporated in the development of the global effectiveness factor. Diffusion coefficients and the rate of mass-transfer constants were obtained from our previous finite element modeling study. We first defined and derived the dimensionless groups to be used in the efficiency analysis and then formulated a relationship between the dimensionless groups and the efficiency indicators, i.e., the ratios of total solute (oil) produced to total solvent injected and total solvent stored to total solvent injected. It was shown that the efficiency of the process can be represented by a dimensionless group that consists of well-known dimensionless numbers such as the Reynolds number, the Peclet number, the Sherwood number, and the global effectiveness factor.