A Novel Stimulation Technique for Horizontal Openhole Wells in Carbonate Reservoirs: A Case Study in Kuwait

Uddin, Shahab; Liu, Hai; Coston, Chad Philip; Yassin, Mohamed Ibrahim; Al-Dhafeeri, Fahad M.

doi:10.2118/105127-ms

SPE Middle East Oil and Gas Show and Conference 2007

DOI: 10.2118/105127-ms

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A Novel Stimulation Technique for Horizontal Openhole Wells in Carbonate Reservoirs: A Case Study in Kuwait

Shahab Uddin

Hai Liu

Chad Philip Coston

et al.

Abstract: Effective matrix acidizing in Kuwait's horizontal openhole wells is a real challenge. Reservoir heterogeneity and the length of the horizontal wells make acid placement and diversion difficult, particularly in high water-cut wells in which bottom water has broken through high permeability streaks or natural fractures. Furthermore, acid penetration is limited by the large surface area of the horizontal wellbore and is exacerbated by the relatively small injection rate imposed by the use of coiled tubing. To mak… Show more

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Cited by 4 publications

References 14 publications

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Application of a Highly Efficient Multistage Stimulation Technique for Horizontal Wells

Al-Mutawa

Al-Matar

Abdulrahman

et al. 2008

SPE International Symposium and Exhibition on Formation Damage Control

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In the recent years horizontal well technology evolved in the Middle East field development strategies becomes favored over vertical and deviated wells offering the advantage of maximized reservoir contact, higher production rates and better access to reserves. However, most of these horizontal wells are completed openhole with little alternatives for stimulation, water shutoff or workover treatments. A very challenging task to stimulate long openhole sections effectively due to poor acid distribution especially in reservoirs with high permeability streaks that require effective diversion techniques. The efficiency of chemical diverting agents in terms of flow distribution and uniform coverage is limited when it comes to treat such complex wells with long openhole intervals (see Fig. 1).This paper illustrates a case history where an innovative technique was used on stimulating a naturally completed horizontal well that experienced a production drop to zero shortly after the completion in 2004 due to formation damage and incomplete cleanup. This technique combined mechanical and chemical diversion, using selective openhole completion allowing the wellbore mechanical segmentation into six small intervals based on petrophysical and reservoir evaluation, so that the selected sections can individually be stimulated evenly and inflow contribution from the entire openhole section can be maximized win one continuous operation.The treatment used the advanced emulsified acid technology to achieve deep penetration and better etched fracture conductivity. Viscoelastic surfactant self-diverting Acid (VES diverting acid) was used as the chemical diverter to assure good zonal coverage across each stimulation stage. Greatly increasing the effectiveness of the treatments the combination of technologies allowed successful stimulation of the well with 20:1 permeability contrast. The last stabilized measurement indicates sustained natural production of 10,000 bopd, which is five times the field average and three times greater than the best well in the field without requiring artificial lift. BackgroundWith more than 8% of world reserves Kuwait is blessed with an abundance of oil. However, oilfield operators recognize that there are many fields where the recovery of the resources are more challenging and required the use of advanced technologies. One of the flagrant examples is the challenging Mauddud formation in the Sabriyah field in Northern Kuwait, where in the last decade a couple of attempts at drilling horizontal oil producer were mostly unsuccessful and showed very disappointing production figures, with higher than expected production of unwanted fluid and completion costs. Since the oil could not be recovered economically, work to develop these reservoirs was suspended for not saying abandoned.In 2006, Kuwait Oil Company (KOC) contracted the service company to revisit this problem and determine if the technology had been invented which would allow this suspended reservoir to be developed and achieve the planned field product...

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Application of a Highly Efficient Multistage Stimulation Technique for Horizontal Wells

Al-Mutawa

Al-Matar

Abdulrahman

et al. 2008

SPE International Symposium and Exhibition on Formation Damage Control

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High-Water-Cut Wells Stimulation Combined Viscoelastic Surfactant

Al-Mutawa

Al-Matar

Dashti

et al. 2008

SPE International Symposium and Exhibition on Formation Damage Control

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Dual completed wells producing from the mature carbonate formation in northern Kuwait are encroached by injected water from adjacent wells presenting a challenge for the operating company. Greater oil demand coupled with limited surface water handling facilities increased the importance of stimulating this type of challenging wells due to the drastic permeability contrast across the pay zones. Typically the treating fluid in a matrix treatment flows into high permeability sections and/ or high water saturation "thief zones" resulting in higher water cut due to the over stimulation of the water zones instead of the oil bearing zones. The objective of the present field case study was to place the stimulation fluid equally throughout all intervals of the oil bearing layers while temporary protect the zones suspected to be mainly contributing with water from the stimulation fluid, using two different types of viscoelastic surfactant (VES) polymer free diversion systems placed with coiled tubing (CT) providing effective plugging of the layers producing water and providing a uniform stimulation fluid coverage across the entire pay zone. Subsequent production rates showed substantial oil production increase and water production decrease, 360% and 40% respectively. Background In the Sabriyah field of northern Kuwait, the wells are usually completed with a dual completion string which provides the mean to access both Mauddud carbonate formation and underlaying Burgan sandstone formation (see Fig. 1). Mauddud formation is a thin low permeability carbonate layer with an average permeability of 20 md and porosity of 22%. The formation contains large amount of natural fractures and produces 23–25º API gravity oil. Due to the lack of nature water influx, the formation has been under water flooding since 1997 in order to sustain the reservoir pressure and field production. However, water breakthrough becomes an issue as soon as the water flooding was started. This is confirmed by the production logging results. Once the water is broken through those high permeability streaks or natural fractures, the oil production rate is dropped dramastically. The formation damage like organic deposits and scales has also contributed to the decline of oil production. The ideal solution would be shut off the water breakthough intervals and then stimulate the oil bearing intervals only. However, conventional isolation tools and stimulation techniques will not work in this case because the Mauddud formation is usually completed in the short string. It is quite challenging to isolate the water intervals and place the stimulation fluids precisely into the oil bearing intervals unless the entire completion is pulled out and each particular interval can be accessed seperately by using a straddle packer. This approach will not only involve the workover rig but also impact the production from the lower Burgan sandstone formation, as well as formation damage associated with the workover operation. Several wells were treated with this approach in the past, but the results showed not to be very cost effective considering the complexity of the operation as well as the production loss from the lower Burgan formation during the workover. Thus an engineering solution of stimulating oil bearing intervals but avoiding suspected water breakthough intervals with the current completion in place is highly required.

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New Approach to Chemical Diversion Using Biodegradable Particulates and Fibers in Matrix Acidizing: Kuwait Case Studies

Al-Othman

A-Matrouk

Ahmed

et al. 2017

Day 1 Mon, November 13, 2017

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Heterogeneity across the producing interval is typical in oil and gas wells; it is rare to find uniform production distribution or fluid injection across a substantially long interval. Hence, diversion during matrix acidizing is critical, especially if the downhole pressure and/or temperature are high. In two Kuwait Jurassic fields, two wells were completed in an over 100 ft producing interval across a carbonate reservoir. Reservoir temperature is 280°F, and the estimated reservoir pressure is 11,000 psi. Multiple matrix acidizing trials to enhance well productivity have been performed with conventional diversion techniques and, as indicated by the surface pressure response, were not effective. This requires an adequately engineered near wellbore diversion system that can overcome the challenge of these bottomhole conditions and form a uniform production distribution across a substantially long heterogeneous interval. A new methodology was applied in two Jurassic wells that combined a multimodal blend of biodegradable particulates and fibers as a chemical diverter, and emulsified acids as main fluids for a matrix stimulation. In each diversion stage, the change in surface pressure ranged from 800 to 1,000 psi after the diversion pill hit the perforation tunnel. Moreover, a clear signature of diversion was demonstrated in the instantaneous shutin pressures. In another Kuwait field, the diversion pill was tested by using injectivity logging tests to monitor the changes in injectivity across the perforated interval during an acid fracturing treatment in comparison to the earlier injection profile. A remarkable change in injection was observed and a total of 80% change in the injection profile was quantified from before and after the diversion. The diversion pill is relatively small in volume and is easy and safe to handle. Fibers help to maintain the carrying capacity and allow safe landing of the biodegradable material to the formation face. Only a few barrels are required to plug the opened or stimulated interval, and the method allows the following stimulation stage to treat the subsequent interval. The first well revealed a 330% and 110% production increase in gas and oil rates, respectively. The production was set as one of the highest producers in the field. The second well yielded a 320% increase in total production, which set the highest record for the field. The new method is proved to be highly effective in terms of wellbore coverage, and highest production records in the field after matrix acidizing treatments.

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A Novel Stimulation Technique for Horizontal Openhole Wells in Carbonate Reservoirs: A Case Study in Kuwait

Cited by 4 publications

References 14 publications

Application of a Highly Efficient Multistage Stimulation Technique for Horizontal Wells

Application of a Highly Efficient Multistage Stimulation Technique for Horizontal Wells

High-Water-Cut Wells Stimulation Combined Viscoelastic Surfactant

New Approach to Chemical Diversion Using Biodegradable Particulates and Fibers in Matrix Acidizing: Kuwait Case Studies

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