Laboratory Evaluation of Formaton Damage Impact of Drill-In Fluid Lubricants in a Low-Permeability Sandstone Gas Reservor

Osode, Peter; Otaibi, Msalli; Bataweel, Mohammed; Ammari, Saleh; Himes, Ron

doi:10.2118/168185-ms

Cited by 5 publications

(1 citation statement)

References 25 publications

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“…Their conclusion is in agreement with Jin (2009), and the lift-off pressure value for all the tested fluids was trivial. Osode et al (2014) studied the impact of 12 commercially water-based mud lubricants on base fluid properties and possible formation damage using sophisticated test facilities. The evaluations included lift-off pressure among others, showing that lubricants have a negative impact on the liftoff pressure.…”

Section: Introductionmentioning

confidence: 99%

Experimental approach for assessing filter-cake removability derived from reservoir drill-in fluids

Elmgerbi

Thonhauser

Fine

et al. 2021

J Petrol Explor Prod Technol

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Predicting formation damage in cased-hole and open-hole completion wells is of high importance. This is especially relevant when the damage is caused by reservoir drill-in fluids hence being well-bore induced. Cake filter removal has proven to be a good approach to estimate induced damage and to evaluate drill-in fluids’ performance. We present an experimental methodology to evaluate filter cake removal, which could be achieved during the well's initial production. An improved experimental setup, to the ones presented in literature, has been developed to enhance data quality. A twofold approach was used for setup design, and first, it can be integrated with devices used to evaluate the static/dynamic filter-cake. Second, it can be used to simulate more realistic cases (field related) by adjusting the experiment parameters. Hence, to replicate the expected drawdown pressure as well as the corresponding flow rate of the studied reservoir. Three key indicators directly related to filter-cake removal were used as evaluators in this work. Lift-off pressure, internal and external filter cakes removal efficiency. Three reservoir fluid systems were studied, two polymer-based and one potassium carbonate. Results show that pressure required to initiate the collapsing process of the filter cake is not significant. Polymer-based drilling fluids showed better performance in terms of external and internal filter cake cleaning efficiency comparing to potassium carbonate. Moreover, we observed that filtrate volume has no clear relation with the degree of residual damage.

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Section: Introductionmentioning

confidence: 99%

Experimental approach for assessing filter-cake removability derived from reservoir drill-in fluids

Elmgerbi

Thonhauser

Fine

et al. 2021

J Petrol Explor Prod Technol

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Drilling fluids

Deville

2022

Fluid Chemistry, Drilling and Completion

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The Nature of Drilling Fluid Invasion, Clean-Up, and Retention During Reservoir Formation Drilling and Completion

Green¹,

Patey²,

Wright³

et al. 2017

Day 1 Wed, April 05, 2017

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A reservoir-conditions coreflood study was undertaken to assist with design of drilling and completion fluids for a Norwegian field. Multiple fluids were tested, and the lowest permeability alterations did not correlate with the lowest drilling fluid filtrate loss volumes. This paper will examine the factors which contributed to alterations in the core samples. A series of corefloods were carried out using core from 2 formations and different drilling fluids. Separate tests were carried out using drilling fluid alone and the full operational sequence. Filtrate loss and permeability measurements combined with interpretative analyses to understand what happened in the near-wellbore. Micro-CT "change maps" gave 3D visualisations of the thickness of operational fluid cakes and extent of retention/clean-up – valuable insights into factors that influence hydrocarbon recovery. All drilling fluids tested had "normal" filtrate loss volumes, with one having notably higher losses with a particular formation. Normally this would be considered a bridging issue and "fixed", but those tests showed comparable or slightly lower alterations in permeability. Analysis showed that, despite deeper constituent infiltration, they were not contributing significant extra damage or retention; the nature of the drilling fluid attachment and cake seemed to be more relevant here than depth of invasion. Other examples will illustrate that the impact of drilling fluid infiltration and retention can range widely, and that there are more key factors than simply filtrate loss volume. Results showed that focusing on the metric of filtrate loss alone may increase risk during drilling fluid selection. Understanding the relationship between filtrate loss, permeability/inflow alteration, retention/clean-up after production is important in selecting fluids as well as giving a better understanding of where improvements can be made. 3D visualisations of the alterations caused by drilling fluid allow conclusions to be drawn when previously there would be speculation.

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Laboratory Evaluation of Formaton Damage Impact of Drill-In Fluid Lubricants in a Low-Permeability Sandstone Gas Reservor

Cited by 5 publications

References 25 publications

Experimental approach for assessing filter-cake removability derived from reservoir drill-in fluids

Experimental approach for assessing filter-cake removability derived from reservoir drill-in fluids

Drilling fluids

The Nature of Drilling Fluid Invasion, Clean-Up, and Retention During Reservoir Formation Drilling and Completion

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