Performance of Finite-Conductivity, Vertically Fractured Wells in Single-Layer Reservoirs

Bennett, Curtis O.; Reynolds, Albert C.; Raghavan, R.; Elbel, J.L.

doi:10.2118/11029-pa

Cited by 54 publications

(21 citation statements)

References 11 publications

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“…This permits accurate modeling of the flow behavior during the fracture and formation linear-flow periods. The grid architecture used in this study is identical to those used by Morse and Von Gonten (1972), Agarwal et al (1979a,b), Bennett et al (1986), Settari et al (2000), Nashawi (2006), and Nashawi and Malallah (2007). Fig.…”

Section: Description Of the Simulation Modelmentioning

confidence: 99%

“…In 1960, McGuire and Sikora used an electronic-analog computer model to study the effect of vertical fractures on fractured well performance. Since then, with the advent of the computer era, many advanced numerical solutions addressing well test analysis of fractured oil wells appeared in the well testing literature (Russell and Truitt, 1964a,b;Raghavan et al, 1972a,b;Locke and Sawyer, 1975;Agarwal et al, 1979a,b;Narasimhan and Palen, 1979;Bennett et al, 1982Bennett et al, , 1986Ding, 1996). Subsequently, the numerical models were followed by many semi-analytical solutions (Prats, 1961;Prats et al, 1962a,b;Gringarten and Ramey, 1973a,b;Gringarten et al, 1975a,b;Samaniego, 1977, 1981a;Hanley and Bandyopadhyay, 1979;Lee and Brockenbrough, 1986).…”

Section: Introductionmentioning

confidence: 99%

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Pressure-transient analysis of infinite-conductivity fractured gas wells producing at high-flow rates

Nashawi¹

2008

Journal of Petroleum Science and Engineering

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Section: Description Of the Simulation Modelmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Pressure-transient analysis of infinite-conductivity fractured gas wells producing at high-flow rates

Nashawi¹

2008

Journal of Petroleum Science and Engineering

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“…Only one-fourth of the drainage area is modeled because of the symmetry. The grid system is generated according to the guidelines proposed by Bennett et al (1986). Detailed investigations were first carried out to make sure that compositional simulator can predict the analytical solutions for hydraulically fractured system and to eliminate the effect of the grid size and grid distribution.…”

Section: Modeling Of the Hydraulic Fracturementioning

confidence: 99%

Long-Term Performance of Hydraulically Fractured Layered Rich Gas Condensate Reservoir

Al-Hashim

Hasmi

2004

Petroleum Science and Technology

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Compositional simulator has been used to investigate the effect of hydraulic fracture on the performance of a layered rich gas condensate reservoir in Saudi Arabia. The reservoir consists of five layers having permeabilities ranging from 0.08 to 115 md with about 68% of the gas reserve located in the lowest permeability layer. The fracture is assumed to penetrate all layers. The results of this investigation showed that hydraulic fracturing of such a reservoir is effective in improving the productivity of the gas condensate wells. The productivity index (PI) of the cases investigated was found to increase by as much as 3.6 folds. Hydraulic fractures were also found ORDER REPRINTS to delay the onset of the dew point pressure and consequently extend the production plateau above the dew point pressure. The production plateau above the dew point pressure was found to increase with increasing the dimensionless fracture conductivity. The results of this study also showed that once the dew point pressure is reached, the flowing bottom hole pressure was found to drop sharply to the specified minimum flowing bottom hole pressure in the fractured and nonfractured cases. However, the drop is less severe in the fractured case. This sharp drop in the flowing bottom hole pressure results in dropping the productivity of the gas condensate wells. Condensate build up along the fracture faces was found to be more significant in the high permeability layers. At early times after reaching the dew point pressure, the highest condensate saturation was found to be in the highest permeability layer. However, at late times (after reaching pseudo steady state) it decreased to a certain level above the critical condensate saturation. Finally, formation cross-flow is found to improve the productivity of the fractured and the nonfractured gas condensate wells. However, the improvement is more pronounced in the fractured cases.

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“…The finite-conductivity vertical-fracture model 13 was also used to interpret the buildup data. A finite-conductivity fracture is feasible because a fracture exists before acid reaches the formation and very long channels within the fracture are created as acid enters the fracture.…”

Section: Field Examplementioning

confidence: 99%

Well-Test Analysis Following a Closed-Fracture Acidizing Treatment

Sollman

Hunt

Daneshi

1990

SPE Formation Evaluation

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Performance of Finite-Conductivity, Vertically Fractured Wells in Single-Layer Reservoirs

Cited by 54 publications

References 11 publications

Pressure-transient analysis of infinite-conductivity fractured gas wells producing at high-flow rates

Pressure-transient analysis of infinite-conductivity fractured gas wells producing at high-flow rates

Long-Term Performance of Hydraulically Fractured Layered Rich Gas Condensate Reservoir

Well-Test Analysis Following a Closed-Fracture Acidizing Treatment

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