Ealian H.D. Al-Anzi scite author profile

Ealian H.D. Al-Anzi

5Publications

56Citation Statements Received

11Citation Statements Given

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Kuwait Petroleum Corporation (Kuwait)

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Field Cases of a Zero Damaging Stimulation and Diversion Fluid from the Carbonate Formations in North Kuwait

Al-Mutawa

Al-Anzi

Ravula

et al. 2003

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The high permeability contrast seen in the producing zones of the oil wells of North Kuwait Mauddud formation makes the uniform stimulation of this carbonate formation a challenge. To achieve diversion, polymer based fluids were used earlier, but with limited success. Recently, a non-polymeric system containing a Visco-Elastic Surfactant based Self Diverting Acid (VES-SDA) was used to divert and effectively stimulate these pay zones. Production logs run before and after the stimulation treatments indicates stimulation of the entire perforated intervals. Stimulation using this new system on the first 17 wells resulted in a production increase of about 30,000 BOPD, much higher than that expected from conventional treatments. The wells that were not producing earlier after several conventional treatments are now producing naturally after treatments using this non-damaging system. Introduction North Kuwait Mauddud formation consists of six main lithology sections with permeability ranging from 3 to 400 mD (Figures 1, 2, Table 1)1. This high permeability contrast in conjunction with thick reservoir layers makes the uniform stimulation of this carbonate formation difficult when using conventional matrix stimulation fluids. Effective diversion is the key for the success of stimulation treatments to achieve uniform production from all pay zones. Without diversion, acid tends to seek the path of least resistance and enters only a small portion of the interval being treated. Chemical diverting agents temporarily block the more permeable section of the interval, forcing the acid into damaged and/ or less permeable areas. In multi-layered reservoir containing zones with different injectivities due to different permeabilities and severity of damage, stimulation fluid diversion is highly recommended. Conventional stimulation treatments use regular acid or retarded acids2,3 in conjunction with chemical diverters including foams4 to fully stimulate long, non-uniform carbo-nate formation. The most commonly used chemical diverters are polymer based5, and are associated with induced formation damage6. To perform stimulation of the entire zone, a new chemical diverter with a solids-free self-diverting acid was recently developed7. The base fluid for the system is HCl, and it stimulates and diverts automatically based on in situ viscosification. The fluid is non-damaging and on breaking, it leaves no residue in the formation. The VES-SDA provides a solution for the heterogeneous carbonate reservoirs, and eliminates the concern of ineffective stimulation. Less friction pressure experienced while pumping this new acid system compared to other diversion systems provides more pumping rates and better treatment effectiveness. The simplicity of the fluid together with the flexibility in designing the treatment, make the execution easier and less cumbersome. Fewer tanks and equipment are needed and hence, fewer footprints are required for space short offshore operations. Stimulation by coiled tubing was shown to be the best tool for acid placement and to get maximum coverage8,9. The producing zones in the Mauddud formation are completed on the short string of dual completed wells. The difficulty of using coiled tubing to acidize short strings makes bullheading of chemical diverter the only choice to perform these treatments. Because of the non-damaging nature and effective-ness as a diverting agent, this VES fluid was chosen to stimulate the oil wells of North Kuwait Mauddud formation. This paper presents the first application worldwide on the use of VES self diverting acid technology in stimulating carbonate formations. Background Maximizing oil and gas recovery is one of the most complicated, but interesting tasks in the oilfield industry today. A chemical solution for uniform production is important in managing the recovery efficiency, allowing an efficient sweep of the hydrocarbons to increase the hydrocarbon recovery.

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Innovative Pattern Balancing and Waterflood Optimization of a Super Giant Carbonate Mauddud Reservoir, Sabiriyah Field, North Kuwait

Al-Ajmi

Baroon

Al-Hamer³

et al. 2007

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fax 01-972-952-9435. AbstractSabiriyah Mauddud (SA MA), a super giant depletion drive oil reservoir in North Kuwait (NK), is undergoing massive development efforts, with a planned enhancement in oil production through phased pattern waterflood. The Phase1 development covers the crestal area of the structure, which is the focus for current development efforts through 12 inverted 9-spot patterns. This paper outlines the successful integration of subsurface, water handling, well surveillance and production operations teams across the NK asset to significantly improve the operating procedure for waterflooding the SA MA reservoir. This effort required a new way of managing this reservoir in NK: a comprehensive approach of balancing voidage with injection, conducting extensive surveillance/analysis within the reservoir to assess the efficacy of various courses of action and, most significantly, adjusting various teams' "key performance indicators" to align injection and production allowables with sound reservoir management principles.The health of the waterflood is regularly checked and monitored through revision of production/injection allowable and pattern balancing. An innovative unified information management system was used to monitor voidage replacement ratio (VRR) to provide a basis for pattern balancing. A very extensive surveillance operation provides the data necessary to monitor individual pattern balance and watercut performance, optimize areal sweep efficiency by adjusting injection and production allowables, assist in planning water shutoff operations, and design new completions.Time lapsed monitoring and the surveillance data indicates the reservoir is relatively well connected. Pattern VRR, pressures, and watercuts were somewhat out of balance prior to engaging in this effort. However, after applying the new management approach, individual waterflood pattern balance is significantly improved and the field-wide VRR is around 1.2.All of these activities have led to the enhanced understanding of the waterflood behavior and the model updates. Sound reservoir surveillance and waterflood management procedures implemented within a diverse group of teams that have performance goals aligned with "best practice" has resulted in effectively re-balancing this major waterflood. This effective integration of teams retains the flexibility to adjust for an ongoing development of this super giant field. This paper also brings out the case history of waterflood management in a super giant carbonate reservoir and the challenges met during the last seven years since the commissioning of the waterflood in year 2000.

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Lessons Learnt and Experiences Gained During Two Years of Field Monitoring, Data Integration and Reservoir Management: A Case History of the Mauddud Waterflood, North Kuwait

Chetri¹,

Al-Anzi²,

Al-Rabah³

et al. 2003

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Zero-Damaging Stimulation and Diversion Fluid: Field Cases from the Carbonate Formations in North Kuwait

Al-Mutawa

Al-Anzi

Jemmali

et al. 2005

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The high permeability contrast seen in the producing zones of the oil wells of the north Kuwait Mauddud formation makes the uniform stimulation of this carbonate formation a challenge. To achieve diversion, polymer-based fluids were used earlier but with limited success. Recently, a nonpolymeric system containing a viscoelastic-surfactant-based (VES) self-diverting acid (SDA) was used to divert and effectively stimulate entire pay zones with great success.Production logs run before and after the stimulation treatments indicate stimulation of the entire perforated intervals. Stimulation using this new system on the first 17 wells resulted in a production increase of approximately 30,000 BOPD-much higher than that expected from conventional treatments. The wells that were not producing earlier after several conventional treatments are now producing naturally after treatments using this nondamaging system. Nearly 100 wells in the same reservoir were treated with this system after successful introduction of the technology. The use of this technology is now extended to matrix stimulation of gas producers, water injectors, and disposal wells.

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Water Shut off Techniques to Combat Premature Water Break through in Mauddud Carbonate Reservoir—An Efficacy Analysis

Kumar

Al-Ajmi

Al-Anzi

et al. 2007

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Ealian H.D. Al-Anzi

Field Cases of a Zero Damaging Stimulation and Diversion Fluid from the Carbonate Formations in North Kuwait

Innovative Pattern Balancing and Waterflood Optimization of a Super Giant Carbonate Mauddud Reservoir, Sabiriyah Field, North Kuwait

Lessons Learnt and Experiences Gained During Two Years of Field Monitoring, Data Integration and Reservoir Management: A Case History of the Mauddud Waterflood, North Kuwait

Zero-Damaging Stimulation and Diversion Fluid: Field Cases from the Carbonate Formations in North Kuwait

Water Shut off Techniques to Combat Premature Water Break through in Mauddud Carbonate Reservoir—An Efficacy Analysis

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