First Smart Liner Mono-Bore Completion in Giant Carbonate Reservoir in Abu Dhabi Provides New Opportunities for Tight Reservoirs Development

Barragan, Ernesto; Jimenez, Alvaro; Ramarao, Subba; Mogensen, Kristian; Albarracin, Ruben Dario; Quintero, Fernando

doi:10.2523/iptc-22043-ms

Day 3 Wed, February 23, 2022 2022

DOI: 10.2523/iptc-22043-ms

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First Smart Liner Mono-Bore Completion in Giant Carbonate Reservoir in Abu Dhabi Provides New Opportunities for Tight Reservoirs Development

Ernesto Barragan

Alvaro Jimenez

Subba Ramarao

et al.

Abstract: One of the main challenges in the oil industry is to develop tighter carbonate reservoirs. There are several methods to improve oil recovery (IOR), the adoption of Novel Lower Completions in horizontal wells can be one of the best tools to maximize reservoir contact and to control unwanted fluids (i.e., water or gas). It is especially important in carbonate reservoirs where most of the time it is imperative to provide additional stimulation in order to produce the reservoirs economically. The main objective of… Show more

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Cited by 11 publications

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Maximum Reservoir Contact (MRC) Water Injector Well Performance in ADNOC Onshore Carbonate Reservoir Equipped with Limited Entry Liner (LEL) Smart Completion

Shkeili

Javid

Benourkhou

et al. 2022

Day 1 Mon, October 31, 2022

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Developing mature reservoirs is associated with challenges and limitations both in surface and subsurface. In This paper we will tackle the area of developing reservoirs with Maximum Reservoir Contact (MRC) wells by introducing our experience in combining it with LEL completion and introduce initial results in unlocking the potential of our reservoir with reduced capital expenditure (CAPEX). Conventional wells with 3000 ft open hole length become more challenging as development of the field progresses and especially with drilling new wells. Congestion and anti-collision at surface and subsurface limitations arise more often let alone the cost, manpower and environmental issues. We are going to introduce Maximum reservoir contact MRC wells with extended open hole length of around 10,000 ft. which allow to maximize gain from this well while optimizing other parameters (well spacing, cost…etc.). Measurement of rate and pressure, pre and post acid stimulation controlled by LEL completion as well as comparison with conventional water injectors in the vicinity were performed before to evaluate the performance of the MRC well. It was confirmed that MRC well injectivity surpasses the conventional injectors with shorter open hole length in relatively tight areas of the reservoir which have low permeability especially if equipped with LEL completion. Initial results show Injectivity improvement compared with nearby water injectors plus additional gain in injectivity noticed after acid stimulation with the LEL completion. The MRC well performance after stimulation showed well head injection pressure decreased drastically after the acid stimulation with increased injected volumes of water. This shows that smart completion solutions well help to improve performance and optimize acid stimulation which highlights the importance of combining MRC with LEL to maximize gain and enhance performance to take the maximum benefit. Through our success with MRC well with LEL completion the community of petroleum engineering will be able to take decisions regarding implementing this method and technology to optimize their drilling which will have positive impact in cost, planning and environment.

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Maximum Reservoir Contact (MRC) Water Injector Well Performance in ADNOC Onshore Carbonate Reservoir Equipped with Limited Entry Liner (LEL) Smart Completion

Shkeili

Javid

Benourkhou

et al. 2022

Day 1 Mon, October 31, 2022

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Lessons Learned from Implementing Smart Liners for Improved Matrix-Acid Stimulation of Carbonate Reservoirs

Mogensen

Hosani

2022

Day 3 Wed, November 02, 2022

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Smart Liners are based on the limited-entry liner principle, which consist of an uneven spacing of a limited number of small holes drilled through the liner to mechanically divert acid along the entire reservoir drain. Past deployments have concentrated on extended-reach wells for which no other efficient matrix-acid stimulation techniques exist. With more than 100 deployments last year, ADNOC has significantly expanded the operational envelope in terms of pump rate, hole size, and well length. Results from the Smart Liner implementation have been very encouraging so far. The general observation is that long-term productivity or injectivity is doubled, sometimes tripled, and the entire wellbore contributes to flow, documented by pre- and post-stimulation production logging. The technique has been successfully applied to several oil producers and water injectors, as well as to one gas producer, and yields superior well performance also in situations where conventional techniques can be deployed. A number of points are worth highlighting: The technique is well-suited for both short and extended-reach wells; however, hole spacing designs strongly depend on the well lengthThe technique works for carbonate rocks of different lithology, such as limestone and dolomite (in addition to numerous chalk applications documented in the literature)Heterogeneity can to some extent be mitigated by appropriate placement of swellable packers and adjustment of hole density prior to stimulationThe high jet velocity through the small holes provides the right initial conditions for wormhole propagationFor water injectors, a pre-stimulation baseline injection period that cools the near-wellbore region in high-temperature reservoirs may improve the wormhole propagation. The rapid deployment of this technique as well as the scale of implementation is unique in the industry.

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Quantifying Smart Liner Acid Stimulation Efficiency in Heterogeneous Carbonate Reservoir Using Inline Tracers and PLT

Bazuhair

Mogensen

Al-Marzouqi

et al. 2022

Day 2 Tue, November 01, 2022

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Matrix-acid stimulation is a key production enhancement technique for carbonate reservoirs. The ability to control acid placement by diversion along the reservoir section is often challenging, particularly for heterogeneous formations where low-permeability intervals may remain under-stimulated. In this paper, we demonstrate via subsequent inflow profiling that efficient stimulation of both low- and high-permeability segments can be achieved using a completion method called a Smart Liner and a new methodology of downhole flow monitoring without operational well intervention by utilizing inline tracer system across the lower completion. The Smart Liner is a completion technique, which relies on a number of small and unevenly spaced holes to divert acid along a horizontal drain, while incorporating swellable packers to isolate segments with different reservoir properties. The hole spacing design is unique for each well and requires a software algorithm to balance the outflow. The inflow monitoring is assessed through both inline chemical tracers and conventional PLT. Main components of this algorithm has been presented in an earlier publication. The inline tracer system can provide "wireless" continuous production profiling without the risk & cost associated with conventional PLT methods. The inline tracer samples were collected during both stages of pre-stimulation and post-stimulation activities on oil producer wells, which shows downhole contribution of all segments, acid arrival and enhancement of Mid section of the reservoir drain. Moreover, PLT was conducted to validate inline tracer results. Past deployments of Smart Liners have targeted homogeneous reservoir intervals, but in this paper, we show that also reservoirs with significant permeability variation can be effectively matrix-acid stimulated. It is to our knowledge the first time that inflow profiling of a long horizontal well has been probed with inline tracers as well as PLT. Furthermore, we quantify the incremental impact of a given acid volume on injectivity based on the high-frequency data from the stimulation job.

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First Smart Liner Mono-Bore Completion in Giant Carbonate Reservoir in Abu Dhabi Provides New Opportunities for Tight Reservoirs Development

Cited by 11 publications

References 5 publications

Maximum Reservoir Contact (MRC) Water Injector Well Performance in ADNOC Onshore Carbonate Reservoir Equipped with Limited Entry Liner (LEL) Smart Completion

Maximum Reservoir Contact (MRC) Water Injector Well Performance in ADNOC Onshore Carbonate Reservoir Equipped with Limited Entry Liner (LEL) Smart Completion

Lessons Learned from Implementing Smart Liners for Improved Matrix-Acid Stimulation of Carbonate Reservoirs

Quantifying Smart Liner Acid Stimulation Efficiency in Heterogeneous Carbonate Reservoir Using Inline Tracers and PLT

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