New Inflow Control Device Reduces Fluid Viscosity Sensitivity and Maintains Erosion Resistance

Coronado, Martin P.; García, Luis Antonio Ribot; Russell, Ronnie; Garcia, Gonzalo Alberto; Peterson, Elmer Richard

doi:10.4043/19811-ms

Cited by 42 publications

(8 citation statements)

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“…The two most commonly used ICDs are the frictional/channel ICDs and restrictive/orifice ICDs (Preston Fernandes et al 2009;F.T. Al-Khelaiwi, 2007;Gonzalo, 2009;Coronado, M et al, 2009;Ali Mojaddam, 2012). The Frictional/channel ICD (Fig.…”

Section: Inflow Control Device and Categoriesmentioning

confidence: 98%

Inflow Control Device in Thin-Layer Bottom Water Drive Reservoir Enhances Oil Recovery in China South Sea

2013

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Horizontal wells can increase a reservoir's drainage area and hydrocarbon recovery, but they pose challenges such as early water breakthrough, high water cut and low oil recovery. Water production continues to increase until the economic limit of the well is reached. In a thin-layer water drive reservoir, in particular, the key factors are controlling water coning, extending the water-free production period and controlling water production post breakthrough.This paper details the challenges faced working in horizontal wells, an optimized reservoir Passive Inflow Control Devices (PICDs, called ICD in this paper) mechanism to address such challenges and reservoir simulation analysis in the application of ICDs in China South Sea.Two dynamic reservoir models were built with the same reservoir property inputs but with two well completion types: standalone screen (SAS) completion and ICDs completion. Through the daily oil and water production, cumulative oil and water production, 3D water movement, the performance of an ICD completion were evaluated. The simulation results demonstrate the added value of the ICD completion system compared to a standalone screen completion production and increased oil in a thin-layer bottom water driver reservoir. IntroductionIn a well producing from a bottom water drive reservoir, oil production is promoted by water production. As a primary reservoir drive mechanism, water moves into the pores spaces originally occupied by oil, displacing it to the producing well. Oil withdrawn from the reservoir is replaced volume for volume by encroaching water. In such a scenario, the reservoir pressure remains stable or gradually declines during production. In addition to providing drive energy and displacing oil, an active aquifer poses severe coning issue, typically for vertical wells.A horizontal well is generally more productive than a vertical well and drilling horizontal wells has become an established method of improving recovery of oil and gas. More contact yields a larger reservoir drainage area and less drawdown required to produce the same amount of fluid. Reducing drawdown is a typical technique for a thin-layered water drive reservoir and maximum production rates are limited as a result of coning problems. Although, factors such as heel-to-toe effect, formation heterogeneity, unfavorable oil/water mobility ratio, high reservoir pressure contrast and fractures accelerate early water production, they result in unbalanced oil contributions from the well and low oil recovery.The reservoir formation mentioned in this paper is sandstone with an anticline structure, and immature faults overriding a large aquifer. The production layer is approximately 30ft, which poses difficulties for controlling water breakthrough and high water cut. Furthermore, this thin pay zone is highly heterogeneous and unforable mobility ratio under the reservoir condition. All factors pose challenges for oil recovery.Data from offset wells in this block experienced early water breakthrough and rapid growth of water cu...

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Section: Inflow Control Device and Categoriesmentioning

confidence: 98%

Inflow Control Device in Thin-Layer Bottom Water Drive Reservoir Enhances Oil Recovery in China South Sea

2013

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“…Computer modeling and production experience have proved that ICDs enable each well to achieve higher oil recovery. Coronado et al 34 put forward a new concept of hybrid design development, which uses the best characteristics of restriction and friction design to improve the erosion resistance and the ability to effectively balance inflow of ICDs. Least et al 35 proposed an independent inflow control device (AICDs) and conducted laboratory experiments.…”

Section: Introductionmentioning

confidence: 99%

Experimental and numerical simulation study on the flow characteristics and optimization of structural parameters of displacement agent in partial pressure tools

Huang

et al. 2019

Energy Science & Engineering

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In order to solve the problem of reservoir heterogeneity in the process of oil displacement, Daqing oilfield has proposed a partial pressure injection technology (using partial pressure tools). The partial pressure tool can improve the overall oil displacement effect by reducing the pressure of the displacement agent and adjusting the injection amount of the displacement agent in the high‐permeability oil layer. In order to study the effect of the partial pressure tool on the polymer solution, the flow characteristics of the polymer solution in the partial pressure tool were studied by finite element analysis, and the results of the numerical simulation were compared and verified by laboratory experiments. Then, the optimal structural parameters of the partial pressure tool were selected by orthogonal experiments. Finally, field tests were carried out to verify the effectiveness of the partial pressure tool. The results show that when the flow rate is 10 m3/d, the pressure drop of the polymer solution reaches 6.08 × 105 Pa and the viscosity loss rate reaches 6.69%, while the physical parameters of the solution change periodically under the action of the partial pressure tool. At a low flow rate, the results of the laboratory experiment and numerical simulation fit well, and the optimal structural parameters of the partial pressure tool are selected. Field tests show that the oil recovery is increased by 2.54% after using partial pressure tools. The research results are of great significance to the study of resolving interlayer conflicts and enhancing oil recovery.

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“…To prevent erosion from occurring in the ICDs, large particles are filtered upstream from the flow with sand screens. When investigating erosion, the primary erosion factors are particle size, particle concentration, particle shape, particle velocity, angle of impact, and wall material (Coronado et al 2009;Oka et al 2009). For the present case, sand-particle sizes 100 to 1000 mm in diameter are investigated.…”

Section: Introductionmentioning

confidence: 99%

Characterization and Erosion Modeling of a Nozzle-Based Inflow-Control Device

Olsen

Hemmingsen

Bergmann³

et al. 2017

SPE Drilling &Amp; Completion

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In the petroleum industry, water-and-gas breakthrough in hydrocarbon reservoirs is a common issue that eventually leads to uneconomic production. To extend the economic production lifetime, inflow-control devices (ICDs) are designed to delay the water-and-gas breakthrough. Because the lifetime of a hydrocarbon reservoir commonly exceeds 20 years and it is a harsh environment, the reliability of the ICDs is vital. With computational fluid dynamics (CFD), an inclined nozzlebased ICD is characterized in terms of the Reynolds number, discharge coefficient, and geometric variations. The analysis shows that especially the nozzle edges affect the ICD flow characteristics. To apply the results, an equation for the discharge coefficient is proposed. The Lagrangian particle approach is used to further investigate the ICD. This allows for erosion modeling by injecting sand particles into the system. By altering the geometry and modeling several scenarios while analyzing the erosion in the nozzles and at the nozzle edges, an optimized design for incompressible media is found. With a filleted design and an erosion-resistant material, the mean erosion rate in the nozzles may be reduced by a factor of more than 2,500.

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New Inflow Control Device Reduces Fluid Viscosity Sensitivity and Maintains Erosion Resistance

Cited by 42 publications

References 0 publications

Inflow Control Device in Thin-Layer Bottom Water Drive Reservoir Enhances Oil Recovery in China South Sea

Inflow Control Device in Thin-Layer Bottom Water Drive Reservoir Enhances Oil Recovery in China South Sea

Experimental and numerical simulation study on the flow characteristics and optimization of structural parameters of displacement agent in partial pressure tools

Characterization and Erosion Modeling of a Nozzle-Based Inflow-Control Device

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