Unique Solution for Fracture Isolation Resolves Breakthrough Challenges in Horizontal Slim Hole Well

Al-Mumen, Adib Abdulmohsen; Al-Umran, Mohammed Ibrahim; Agrawal, Pradeep; Jørgensen, Thomas; Smith, Peter E.

doi:10.2118/114475-ms

Cited by 5 publications

(1 citation statement)

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“…Swellable-packer technology has been described in numerous technical articles (Al-Mumen et al 2008;Antonia et al 2007;Fryer 2005;Hembling et al 2006;Kleverlaan et al 2005;Triolo et al 2006), and its functionality and reliability as a means for openhole-isolation has been proven since its introduction to the industry in 2001. The technology has also been tested and proven to form a reliable seal inside casing, even if it is severely corroded (Pradie et al 2008).…”

Section: Swellable-packer Designmentioning

confidence: 99%

First Coiled Tubing Swellable-Packer Deployment in the Middle East

Noguera

Sierra

Jørgensen

2009

SPE/ICoTA Coiled Tubing &Amp; Well Intervention Conference and Exhibition

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This paper describes the rigless deployment of two swellable-packer assemblies used to isolate a set of perforations in a horizontal cased-hole completion. The purpose of this application was to provide a cost-effective method of isolating a high water-saturated zone in an extended lateral and to facilitate the production of hydrocarbon from the rest of the perforations.The candidate selected for this application was a horizontal cased-hole well with five sets of perforations in which the water cut increased from 0 to 60% in less than two years of production. A production and water-detection log was acquired and confirmed the top set of perforations as the water-entry point.Several rigless alternatives, including chemical treatments, inflatable packers, and oil-swellable packers, were evaluated as potential solutions to isolate the perforations. The complexity of placement of chemical water-shutoff treatments in horizontal sections and previous unsuccessful isolations with inflatable packers aided in the selection of an oil-swellable packer as the most suitable solution.The rigless deployment of two swellable-packer assemblies with 250 ft of blank section to straddle the water-intrusion zone while complying with the necessary well-control barriers presented an operational challenge that was overcome by combining slickline with coiled tubing (CT) services. The solution allowed successful placement of both assemblies in the horizontal section.

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Section: Swellable-packer Designmentioning

confidence: 99%

First Coiled Tubing Swellable-Packer Deployment in the Middle East

Noguera

Sierra

Jørgensen

2009

SPE/ICoTA Coiled Tubing &Amp; Well Intervention Conference and Exhibition

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Finite Element Simulation of Compression of Elastomeric Seals in Open Hole Liners

Alzebdeh

Pervez

Qamar

2010

Journal of Energy Resources Technology

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Control of water flow in open hole wells is an urgent necessity to minimize water production and maximize oil output. Elastomers provide tight seals as they deform against formation during the expansion process of a solid expandable tubular. A better prediction of behavior of elastomers in compression will achieve an effective sealing mechanism. Due to the inherent nonlinearity of tubular expansion and elastomer compression against open hole formation, a closed form solution is extremely difficult to obtain. Finite element modeling provides a viable alternative, as an approximate simulation tool, to determine the seal pressure without significant compromise on the complexity of the problem. The finite element analysis software is employed to model the tubular expansion resulting in compression of elastomer seal to effectively isolate unwanted water producing zones. The formation is modeled as a rigid body or an elastic or elastic-plastic material. Two different boundary conditions, fixed-free and fixed-fixed, are employed depending on prevailing practices of oil operators in such applications. The effect of seal length and thickness, compression ratio and shear resistance at seal-formation interface are determined on the contact pressure between seal and formation.

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Swellable Packers in Unique Horizontal Completions Solves Difficult Challenges in Offshore India Vasai East Field

Kalyani

Avtar

Srivastava

et al. 2009

SPE Offshore Europe Oil and Gas Conference and Exhibition

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Oil and Natural Gas Corporation (ONGC) operates the Vasai East Field in western offshore India. The reservoir is challenging to drill and complete because of the inherent risks of gas and water coning, permeability differences, and declining reservoir pressures. An innovative horizontal completion strategy for new wells to meet the many unusual challenges was required. The need for appropriate zonal isolation was identified after the wells in the Vasai West Field had been completed without segmentation in the open hole. The requirements included:○Oil production without breakthrough of gas or water○Effective hydraulic seal in washed-out hole conditions○Contingency options for intervention, if needed○Equipment to withstand high bottomhole static temperature. This paper describes how the challenges were met using swellable-packer, high-temperature isolation systems placed between perforated tubing/sliding-sleeve circulating devices and blank pipe spaced out across the oil-bearing zones. The swellable packer systems were located at the ends of each facies change to isolate the local high-permeability zones. Swellable packers use expanding rubber around the packer mandrel that expands to seal the annulus and create a permanent seal when it contacts liquid hydrocarbon or water in both cased or openhole environments. Five wells have been completed in Vasai East field to date with swellable packers in conjunction with pre-perforated liners or sliding sleeves. PLT logs have been run in one of the wells post completion, and isolation has been verified. Low water cuts and low gas/oil ratios (GOR) also verify that the packers isolate the various sections of the wells as planned. On the success of these completions, this technology is currently being planned for ONGC's completions in other fields. Introduction The Vasai East Field is located in the Heera-Panna-Bassein block and falls toward and northeast of the main Bassein field about 80 Km west northwest of Mumbai city (Fig. 1). Water depth varies from 40 to 50 m. As per the latest geological model, the field has an average oil column thickness of about 28 m trapped between the gas cap above and aquifer at bottom. The field extends over an area of 54 sq. km. Vasai East field was discovered in 2001 and had continuously declined in pressure due to gas production from the nearby Bassein field. Both the fields are hydro dynamically connected through a common aquifer (Fig. 2). The production targeted was from a thin-oil column trapped between a gas cap and water at bottom in a high-temperature reservoir. The field had been plagued with problems from severe mud loss that had occurred during exploratory drilling in the field. Also, since the oil is between the gas cap and aquifer at bottom, the horizontal drain-hole placement was critical to control unwanted gas/water production. The Vasai East Field is hydro-dynamically connected with the main Bassein field through a common aquifer, which is depleting due to constant gas production. Therefore there was an urgent need to quickly develop this field. To keep pace with the quickly depleting reservoir pressures, efforts were made to expedite the development scheme for the exploitation of oil from this field. The Vasai East Field is separated from the main Bassein field by a low axis at the Bassein formation level.

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Unique Solution for Fracture Isolation Resolves Breakthrough Challenges in Horizontal Slim Hole Well

Cited by 5 publications

References 0 publications

First Coiled Tubing Swellable-Packer Deployment in the Middle East

First Coiled Tubing Swellable-Packer Deployment in the Middle East

Finite Element Simulation of Compression of Elastomeric Seals in Open Hole Liners

Swellable Packers in Unique Horizontal Completions Solves Difficult Challenges in Offshore India Vasai East Field

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