Prediction and Localisation of Erosion Prone Areas along Non-Compliant Sand Control Completions

Tovar, Juan; Zheng, Yan; MacDonald, Lauren A.

doi:10.2118/143164-ms

Cited by 2 publications

(3 citation statements)

References 6 publications

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“…The opposite scenario is one where after the initiation of production, a severe impairment of flow is noted and high drawdowns have to be applied to the wellbore. In this scenario a high level of compaction of the collapsed rock might have occurred (Tovar et al 2011) however, other factors such as formation skin and screen plugging can cause a similar effect.…”

Section: Inflow and Mechanical Behaviour At The Near Wellborementioning

confidence: 97%

“…They identified what they called the two permeability zone in which deformation of rock material at the wellbore wall produces a change in permeability that has an impact on inflow. Further researchers (Schutjens 2004, Pyatakhin 2004, 2006, Tovar et al 2007, 2011, MacDonald 2011 have investigated the changes in petrophysical properties at the near wellbore. This research concluded that the change in porosity and permeability at the near wellbore can be investigated through plasticity and deformation principles such as those utilised in the analysis of reservoir deformation (Ricard et al 2001, Bercovici et al 2001, Wong et al 1997.…”

Section: Introductionmentioning

confidence: 99%

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Mechanical and Flow Behaviour of Collapsed Wellbores in Non-Compliant Sand Control Completions

Tovar

Noblett

2013

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In non-compliant sand control completions such as stand-alone-screens, the annular gap between the wellbore wall and the screen has always been considered detrimental to efficient inflow. They are typically associated with large skins resulting from the mixing of failed sand grains and the development of a new and continuously changing permeability as the collapsing material starts to compact onto the screen. Annular movement of sand grains and non-uniform bridging creating "hot" spots will eventually lead to erosion and completion failure. Previous researchers have investigated the change in permeability of failed rock into annular gaps generated in non-compliant sand control completions and identified that packed material in this space can result in severe distortion to flow patterns and restrictions. This paper describes the mechanical and flow process occurring as the wellbore wall collapses onto the screen surface. Constitutive models are used to characterise the mechanical behaviour of the failed material in terms of deformation and collapse of the near wellbore onto the screen. Continuous (foot-by-foot) inflow models are presented to illustrate the impact of the deformation process as the annular gap is filled up on inflow. A detailed laboratory testing program and its results are presented to validate both processes using samples from North Sea sandstone reservoirs. The results indicate that for noncompliant sandface completions such as stand-alone screens, it is possible to determine whether the collapse of the wellbore will occur and how productivity will be affected. From the mechanical point of view the rock follows an extension-dilatancycompaction path. This will at the same time produce a varying permeability and hence inflow, the magnitude of which will depend on factors such as pore pressure, drawdown pressures, reservoir rock mechanical properties and mineral composition. This extensive testing program has led to the development of a series of analytical models, testing procedures and design methodologies for wells being completed with non-compliant sand control completions.

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Section: Inflow and Mechanical Behaviour At The Near Wellborementioning

confidence: 97%

Section: Introductionmentioning

confidence: 99%

Mechanical and Flow Behaviour of Collapsed Wellbores in Non-Compliant Sand Control Completions

Tovar

Noblett

2013

All Days

Self Cite

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“…Another study (Cameron and Jones, 2007) reported the influence of different fluid types, flow velocities, sand contents, and particle sizes on the failure of sand screen through experimental and theoretical analyses and proposed a model for predicting the time of failure of the screen. Based on the experimental results, some researchers (Navaira et al, 2009;Svela et al, 2009;Tovar and Zheng, 2011) proposed a method for positioning screen zones with erosion hazards and, based upon different sand control methods, came up with a method for judging the screen failure under different environmental conditions. The same authors reported that the change in flow channel and flow pattern by screen and annulus plugging constituted an important factor for the failure of a screen.…”

Section: Introductionmentioning

confidence: 99%

Study on the Erosion of Screen Pipe Caused by Sand-Laden Slurry

Liao

Dong

Niu³

et al. 2020

Journal of Engineering Research is an international, peer-revie

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Screening is one of the main filtration and separation methods for unconsolidated sandstone reservoirs, and the problem of failure of sand control screen, encountered by some sand control wells in early production phase, gives rise to serious sand production in the shaft and influences normal production in the oilfield. In order to analyze the reason for screen failure in sand control wells and the detailed mechanism of the short service cycle of sand control screens, this paper proposes an experimental device, which can simulate sand screen erosion by the sand-laden slurry under underground working conditions and studies the influence of screen type, salinity, sand particle size, sandladen concentration, erosive angle, and other factors on the degree of erosion of screen filtering medium. Based upon experimental results, the current study establishes a model for predicting the service-life of sand control screens. The results showed that the jet velocity, sand-laden concentration, sand particle size, erosive angle, and other factors exhibited an obvious influence on the erosion of screen, while the salinity of formation water exerted an insignificant influence. Under the same conditions, different types of screens presented relatively significant differences in antierosion performance, whereas the anti-erosion performance of the stars screen was found to be superior to that of the metal mesh screen. The results provide some basis for selecting sand control methods, offering guidance about the production systems and predicting the service-life of screens.

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Prediction and Localisation of Erosion Prone Areas along Non-Compliant Sand Control Completions

Cited by 2 publications

References 6 publications

Mechanical and Flow Behaviour of Collapsed Wellbores in Non-Compliant Sand Control Completions

Mechanical and Flow Behaviour of Collapsed Wellbores in Non-Compliant Sand Control Completions

Study on the Erosion of Screen Pipe Caused by Sand-Laden Slurry

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