Experimental and Simulation Analysis of Fractured Reservoir Experiencing Different Stress Conditions

Muralidharan, Vivek; Putra, Erwinsyah; Schechter, David S.

doi:10.2118/2004-229

Cited by 8 publications

(5 citation statements)

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“…The fractures were also represented by unit porosity because it was artificially made with a saw (Guzman, R.E. and Aziz, K. 1992;Muralidharan, V. et al 2004). Fig.…”

Section: Simulation Results History Matching the Experimental Resultsmentioning

confidence: 99%

Experimental and Numerical Simulation Studies of Different Modes of CO2 Injection in Fractured Carbonate Cores

2011

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We have performed a miscible CO 2 flood study using fractured and unfractured carbonate cores and 31° API west Texas oil to evaluate oil recovery under three main injection modes: SWAG, WAG, and CGI. For each injection mode, three cases were considered: unfractured, one horizontal fracture and two fractures (one horizontal and one vertical). Increasing the number of fractures will investigate different shape factors such as the elongated slab and sugar cube models. Then, a commercial simulator was used to match the experimental results and model the fractures. The experimental results may be summarized as follows. First, for the unfractured case, the oil recoveries for SWAG, WAG, and CGI are 98, 92, and 75 % of OOIP, respectively. Second, for the elongated slab case (one horizontal fracture), the oil recoveries for SWAG, WAG and CGI decreased to 72, 70, and 27 %, respectively. Third, for sugar cube model (two fractures), the oil recoveries for SWAG, WAG and CGI are 79, 79, and 55 %, respectively. The simulation shows that the improvement in recoveries during SWAG and WAG over CGI is a result of a better conformance provided by the injected water which hindered CO 2 mobility and decreased its cycling through the fracture. Also, the sugar cube model has shown better results than the elongated slab because of the presence of a vertical fracture in the middle which helped CO 2 to diffuse more in the matrix and contact oil. The results suggest that injecting CGI in fractured cases is not recommended and injecting water (wetting phase) along with CO 2 is essential. Finally, among all injection modes, SWAG has resulted in the most uniform displacement profile with the lowest residual oil saturation after the flood. This injection mode combines the benefits of water to transfer into the matrix with CO 2 excellent displacement.

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“…The fractures were also represented by unit porosity because it was artificially made with a saw (Guzman, R.E. and Aziz, K. 1992;Muralidharan, V. et al 2004). Fig.…”

Section: Simulation Results History Matching the Experimental Resultsmentioning

confidence: 99%

Experimental and Numerical Simulation Studies of Different Modes of CO2 Injection in Fractured Carbonate Cores

2011

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“…There is no clear standard method used in analyzing the sensitivity of fractures. According to laboratory investigations, under normal pressure, the stress sensitivity of natural fractures is strong with great potential of aperture variation (Khan et al, 2000;Muralidharan et al, 2004;Petunin et al, 2011). Xiang et al (2003) has studied the stress sensitivity of fracture-pore reservoir system, and believed that the stress sensitivity of artificial fractures, natural fractures and pore types of carbonate rock samples weakened sequentially.…”

Section: Introductionmentioning

confidence: 99%

A new model for calculating permeability of natural fractures in dual-porosity reservoir

Zhang

Adenutsi

et al. 2017

Adv. Geo-Energ. Res.

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During the development of naturally fractured carbonate reservoirs, understanding the change in fracture permeability is the basis for production evaluation and scientific development. The conventional method of analyzing fracture permeability is to take core samples for laboratory experiments. This paper presents a new method to calculate the fracture permeability decrease using actual reservoir pressure data. The mathematical model of fracture permeability change with pressure is established based on material balance in the production process of a fractured reservoir. The model considers crossflow coefficient as well as compression coefficient. According to the results of the model, the fracture permeability decreases with decrease of the formation pressure, but the degree of decline is related to the crossflow coefficient and the compression coefficient. By using this model, the change in fracture permeability can be calculated under different production pressures. This provides a new method for stress sensitivity determination of fractured reservoirs.

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“…They observed that the breakthrough time was reduced significantly and a much higher recovery was obtained with viscosified water followed by CO 2 compared to continuous CO 2 injection. • Muralidharan et al (5) conducted experimental and simulation studies to investigate the effect of different stress conditions (overburden pressure) on fracture/matrix permeability and fracture width. They concluded that during constant injection, average fracture permeability decreased by approximately 91% and the average mean fracture aperture decreased approximately 71%, while increasing overburden pressure from 500 -1,500 psi.…”

Section: Introductionmentioning

confidence: 99%

Experimental Investigations on the Flow Dynamics and Abandonment Pressure for CO2 Sequestration and Oil Recovery in Artificially Fractured Cores

Trivedi

Babadagli

2010

Journal of Canadian Petroleum Technology

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Civil and Environmental Engineering Department, School of Mining and Petroleum, at the University of Alberta. He previously served on the faculty at Istanbul Technical University in Turkey, and Sultan Qaboos University in Oman. His areas of interest include modelling fluid and heat flow in heterogeneous and fractured reservoirs, reservoir characterization through stochastic and fractal methods, optimization of oil/ heavy-oil recovery by conventional/unconventional EOR methods and CO 2 sequestration. He holds B.S. and M.S. degrees from Istanbul Technical University and M.S. and Ph.D. degrees from the University of Southern California, all in petroleum engineering. Babadagli is currently an associate editor for SPE Reservoir Eval. and Eng. He previously served on SPE Education and Professionalism and the SPE Career Guidance and Student Development Committees. He was also a member of the Steering Committee for the

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Experimental and Simulation Analysis of Fractured Reservoir Experiencing Different Stress Conditions

Cited by 8 publications

References 8 publications

Experimental and Numerical Simulation Studies of Different Modes of CO2 Injection in Fractured Carbonate Cores

Experimental and Numerical Simulation Studies of Different Modes of CO2 Injection in Fractured Carbonate Cores

A new model for calculating permeability of natural fractures in dual-porosity reservoir

Experimental Investigations on the Flow Dynamics and Abandonment Pressure for CO2 Sequestration and Oil Recovery in Artificially Fractured Cores

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