Effects of Water Coning on the Performance of Vertical and Horizontal Wells-A Reservoir Simulation Study of Hassi R'mel Field, Algeria

Recham, R.; Osisanya, S.O.; Touami, Mahieddine

doi:10.2118/65506-ms

Cited by 12 publications

(9 citation statements)

References 4 publications

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“…Note, in Figure 2, this actual critical oil rate (qc) is the highest (apex) oil production rate at which the water-cut begins to increase, thus, indicating water breakthrough. Other authors': Hoyland et al [14] and Recham et al [15] correlations predicted critical oil rate of 33.76 bbl/day and 75.19 bbl/day respectively, for the ADX Oilfield. These authors' correlation predictions were far less than the actual critical oil rate of the ADX Oilfield in the Niger Delta.…”

Section: Developed Critical Oil Rate Correlationmentioning

confidence: 98%

“…In the literature, Hoyland et al [14] and Recham et al [15] had developed critical oil rate (qc) correlations from numerical approach. These correlations basically comprises of the fluid density difference (∆ρ), fractional well penetration (hp/h), horizontal permeability (kh), oil column (h) and drainage radius (re).…”

Section: Critical Oil Rate Correlation Developmentmentioning

confidence: 99%

“…These correlations basically comprises of the fluid density difference (∆ρ), fractional well penetration (hp/h), horizontal permeability (kh), oil column (h) and drainage radius (re). On the other hand, Recham et al [15] added oil viscosity (µo), oil formation volume factor (Bo) and dimensionless critical rate ( D c q ) to the aforementioned parameters. The dimensionless critical rate ( D c q ) contains mobility ration (M), anisotropy (kv/kh), height above perforation -oil column (hap/h) and height below perforation -oil column (hbp/h) terms.…”

Section: Critical Oil Rate Correlation Developmentmentioning

confidence: 99%

“…The dimensionless critical rate ( D c q ) contains mobility ration (M), anisotropy (kv/kh), height above perforation -oil column (hap/h) and height below perforation -oil column (hbp/h) terms. Hence, the Hoyland et al [14] and Recham et al [15] correlations are expanded in Equations 1 and 2, respectively.…”

Section: Critical Oil Rate Correlation Developmentmentioning

confidence: 99%

“…From this, the developed critical oil rate correlation is expanded in Equation 14. Then, the developed correlation was validated by comparing its prediction alongside with other authors: Hoyland et al [14] and Recham et al [15] correlations with the actual ADX Oilfield critical oil rate; as obtained from the production history data. Also, sensitivity studies of the completion interval parameters: fractional well penetration (hp/h) and height below perforation -oil column (hbp/h) on the critical oil rate (qc) were performed using the ADX reservoir model (Figure 1).…”

Section: Critical Oil Rate Correlation Developmentmentioning

confidence: 99%

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Integrated-reservoir-model-based critical oil rate correlation for vertical wells in thin oil rim reservoirs in the Niger Delta

Okon

Appah

2018

IJET

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Thin oil rim reservoirs are mostly characterized by development and production challenges; one of which is early water coning tendency. In the Niger Delta, most developed critical oil rate correlations to avert coning focused on conventional bottom-water drive reservoirs, while thin oil rim reservoirs received limited attention. Available correlations to estimate critical oil rate of thin oil rim reservoirs in Niger Delta are based on generic reservoir models, which does not consider the reservoir heterogeneity. Hence, it leaves these available correlations' predictions in doubt, considering the sensitive nature of developing thin oil rim reservoirs. Thus, a correlation for critical oil rate (qc) based on integrated reservoir model in the Niger Delta was develop for thin oil rim reservoirs using multivariable numerical optimization approach. The obtained result indicated that the developed correlation predicted 226.05 bbl/day compared to the actual Oilfield critical oil rate of 226.11 bbl/day. Furthermore, sensitivity study indicated that the developed correlation and the integrated reservoir model predictions of fractional well penetration (hp/h) and height below perforation -oil column (hbp/h) on critical oil rate (qc) were close and resulted in coefficient of determination (R 2 ) of 0.9266 and 0.9525, Chi square (X 2 ) of 0.539 and 0.655, and RMSE of 4.336 and 4.357. Additionally, the results depict that critical oil rate depends indirectly on fractional well penetration and directly on height above perforation for vertical wells. Therefore, to delay water-coning tendency in thin oil rim reservoirs these completion parameters are consideration in vertical wells to establish optimum critical oil rate during hydrocarbons production. Also, the developed correlation can be used as a quick tool to estimate critical oil rate of thin oil rim reservoirs in the Niger Delta.

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Section: Developed Critical Oil Rate Correlationmentioning

confidence: 98%

Section: Critical Oil Rate Correlation Developmentmentioning

confidence: 99%

Section: Critical Oil Rate Correlation Developmentmentioning

confidence: 99%

Section: Critical Oil Rate Correlation Developmentmentioning

confidence: 99%

Section: Critical Oil Rate Correlation Developmentmentioning

confidence: 99%

See 3 more Smart Citations

Integrated-reservoir-model-based critical oil rate correlation for vertical wells in thin oil rim reservoirs in the Niger Delta

Okon

Appah

2018

IJET

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Estimation of breakthrough time for water coning in fractured systems: Experimental study and connectionist modeling

et al. 2014

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in Wiley Online Library (wileyonlinelibrary.com) Water coning in petroleum reservoirs leads to lower well productivity and higher operational costs. Adequate knowledge of coning phenomena and breakthrough time is essential to overcome this issue. A series of experiments using fractured porous media models were conducted to investigate the effects of production process and pore structure characteristics on water coning. In addition, a hybrid artificial neural network (ANN) with particle swarm optimization (PSO) algorithm was applied to predict breakthrough time of water coning as a function of production rate and physical model properties. Data from the literature combined with experimental data generated in this study were used to develop and verify the ANN-PSO model. A good correlation was found between the predicted and real data sets having an absolute maximum error percentage less than 9%. The developed ANN-PSO model is able to estimate breakthrough time and critical production rate with higher accuracy compared to the conventional or back propagation (BP) ANN (ANN-BP) and common correlations. The presence of vertical fractures was found to accelerate considerably the water coning phenomena during oil production. Results of this study using combined data suggest the potential application of ANN-PSO in predicting the water breakthrough time and critical production rate that are critical in designing and evaluating production strategies for naturally fractured reservoirs.

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Identification of high permeability channels along horizontal wellbore in heterogeneous reservoir with bottom water

Zheng¹,

Liu

Zhang

et al. 2013

J Petrol Explor Prod Technol

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Reservoir heterogeneity is one of the main barriers that affect reservoir developing efficiently in the presence of a strong aquifer support. To identify high permeability channels, a coupled model of two phase flow in the formation and variable mass flow in the horizontal wellbore has been built in this paper. Keep the average vertical permeability and the permeability variation coefficient constant, change the distribution of vertical permeability, on the basis of which we can get different relations between cumulative watercut and oil recovery. The study shows that if there is a high permeability channel along the wellbore, a line segment and an inflexion will appear on the curve of cumulative watercut and oil recovery in semi-log coordinate when oil recovery reaches some value. The closer the distance between the high permeability channel and the heel is, the earlier the inflexion and the line segment will appear. At last, the actual curve is compared with the theoretical ones in the oil recovery when the inflexion and the line segment appear, by means of which the high permeability channel could be identified. The result calculated through the method is similar to the well log interpretation, and the method can be popularized.

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Effects of Water Coning on the Performance of Vertical and Horizontal Wells-A Reservoir Simulation Study of Hassi R'mel Field, Algeria

Cited by 12 publications

References 4 publications

Integrated-reservoir-model-based critical oil rate correlation for vertical wells in thin oil rim reservoirs in the Niger Delta

Integrated-reservoir-model-based critical oil rate correlation for vertical wells in thin oil rim reservoirs in the Niger Delta

Estimation of breakthrough time for water coning in fractured systems: Experimental study and connectionist modeling

Identification of high permeability channels along horizontal wellbore in heterogeneous reservoir with bottom water

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