Implementing Intelligent Well Completion in Brown Field Development

Johnstone, Stuart; Duncan, Gavin; Giuliani, Corrado; Denholm, Allan

doi:10.2118/77657-ms

SPE Annual Technical Conference and Exhibition 2002

DOI: 10.2118/77657-ms

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Implementing Intelligent Well Completion in Brown Field Development

Stuart Johnstone¹,

Gavin Duncan

Corrado Giuliani³

et al.

Abstract: Intelligent Well Completions (IWC) is an emerging technology, which allows operators to optimise reservoir management and field facilities performance. The implementation of this technology has generally been restricted to new field development due to the perceived complexity of integrating high-end IWC (combined monitoring and flow control) into current Subsea Production System (SPS) designs. However, intelligent completions can be applied to mature fields where reservoir performance and value added by IWC ar… Show more

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Cited by 9 publications

References 2 publications

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Impact of Intelligent Wells on Oilfield Scale Management

Kavle

Elmsallati²,

Mackay³

et al. 2006

All Days

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TX 75083-3836 U.S.A., fax 01-972-952-9435. AbstractThe main challenge facing the oil industry is to reduce development costs while accelerating recovery while maximising reserves. One of the key enabling technologies in this area is intelligent well completions. Downhole inflow control devices allow for the flexible operation of non-conventional wells. By placing sensors and control valves at the reservoir face, engineers can monitor reservoir and well performance in real time, analyse data, make decisions and modify the completion without physical intervention to optimise reservoir and asset performance.

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Impact of Intelligent Wells on Oilfield Scale Management

Kavle

Elmsallati²,

Mackay³

et al. 2006

All Days

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Production Optimization With Intelligent Wells

Emerick

Portella

2007

Latin American &Amp; Caribbean Petroleum Engineering Conference

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fax 01-972-952-9435. AbstractThis paper describes an implementation of method to optimize the production in intelligent wells varying the wells inflow control valves settings using an optimization algorithm coupled to commercial flow simulators. The optimization is based on direct search methods. The optimization algorithm was coupled with two different commercial flow simulators and has been applied in two real Brazilian offshore fields to quantify the benefits of intelligent wells over a base case with conventional completion. The first field has three horizontal wells, two producers and one water injector, completed in two zones totalizing six inflow control devices. In this case, different scenarios have been analyzed varying the downhole valves type -on-off and multi-position. The results have shown that the intelligent wells scenarios increased the recovery factor and reduced the production and injection of water when compared with the base case (conventional completion). The second field has fifteen wells -nine producers with binary valves and six water injectors with sixposition valves -producing and injecting in two or three zone totalizing 39 downhole valves to be optimized. In this case, the results have shown a significant increase of the expected cumulative oil production when compared with the base case.

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Temperature Transient Analysis in a Horizontal, Multi-zone, Intelligent Well

Muradov¹,

Davies²

2012

All Days

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Intelligent, or I-wells, are a core element in the delivery of the "digital oil field". Numerous publications have described how their control and monitoring capabilities can lead to an increase in reserves. Such monitoring systems provide the data which, when analysed with the appropriate algorithms, is turned into real-time information; viz. the quantitative values of the multiphase flow rate distribution across the multiple completion intervals. This transformation of data into information is the first step in a real-time, selective, zonal production management methodology. A second use of this information is the updating of the reservoir model, providing improvements in the reservoir description, the production performance prediction and the reservoir depletion strategy. Temperature data plays an important role in downhole monitoring. It may be the sole source of downhole data or it may complement downhole, pressure gauge data. However, temperature data analysis workflows are less well developed than their pressure equivalent. Further, the installation of distributed temperature sensors is not always possible across the lower completion of many multi-zone, I-wells. To fill this gap we have set ourselves the target of developing transient temperature analysis techniques based on the use of data from discrete, relatively accurate, temperature gauges installed across each production zone. We recently reported our first step in this process, the mathematical basis for temperature transient analysis of a single zone. This paper extends our first step in the development of a comprehensive, temperature analysis workflow to the analysis of a horizontal, multi-zone, I-well. The workflow necessary to calculate the sandface temperature for each zone in a multizone completion will be presented. The novel aspect of this new workflow is that allowance is made for the affect of fluid flowing from deeper zones. Its utility will be demonstrated using a real case history.

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Implementing Intelligent Well Completion in Brown Field Development

Cited by 9 publications

References 2 publications

Impact of Intelligent Wells on Oilfield Scale Management

Impact of Intelligent Wells on Oilfield Scale Management

Production Optimization With Intelligent Wells

Temperature Transient Analysis in a Horizontal, Multi-zone, Intelligent Well

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