A Cost-Effective Stimulation Workflow Unlocks New Perspectives for Matrix Acidizing in Openhole Horizontal Tight Carbonate – A Case Study from West Kuwait

Most oil fields worldwide are stored in carbonate rocks, which vary in rock and fluid properties. Heterogeneity, thickness, and depth play vital roles in the selection of specific acid stimulation to improve the productivity and injectivity of the wells from near-wellbore damaged formation resulting from overbalance drilling. This paper describes the integrated workflow that guides petroleum engineers in the selection of optimum acid stimulation techniques and technologies for a specific field. Specifically, this work discusses the stimulation strategies in the form of a stimulation workflow that considers various aspects to achieve the stimulation objectives. The stimulation objectives are also streamlined for the well objectives, which mainly consider the well completion approach. Considering the well completion and well objective, the stimulation strategies highlight the conveyance selections, fluid selections, and the methodologies. Guidelines are provided as examples for fluid specification. Some comparisons of the stimulation fluids are also shown to consider the advantages and disadvantages of each application. Example simulation and case studies show various applications in UAE. Numerous new technologies and different acid types have been tested worldwide on different carbonate rocks whereas very limited information exists on a tailored acid stimulation workflow that can be fit to the needs of a specific field. The developed workflow is an integrated holistic guidance based on worldwide best practice of acid stimulation and can facilitate and guide technical expertise for production and cost optimization in different oil and gas fields. The latest stimulation technologies are highlighted for the reference on the case studies.

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A Novel Hybrid Acid Stimulation/Fracturing Technique Developed for North Kuwait Jurassic Gas, Utilizing Particulate Diverters for Wellbore Diversion

Peiwu,

Al-Mefleh,

van Dijk

et al. 2023

Day 1 Tue, September 12, 2023

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The North Kuwait Jurassic Gas (NKJG) asset is highly complex. The main target zone is the dolomitic Marrat reservoirs that have been under differential depletion and production for several years. The Marrat are deep carbonates, naturally fractured with low matrix permeability and high conductivity contrasts. Reservoir fluid composition is sour gas condensate and volatile oil mix supported by a weak water primary drive mechanism. The Marrat reservoir is divided into flow units/flow zones with variations in reservoir properties. The variations in properties, conductivity contrasts, and the propensity to flow preferentially from the naturally fractured network cause effective stimulation of individual flow zones critical for productivity enhancement. Ideally, each flow zone must be stimulated separately to optimize the productivity of the well and to prevent unintended bypassing of the Jurassic hydrocarbons. A customized deployment method that is neither fracturing nor matrix stimulation along with a temporary plugging mechanism is required to ensure high-rate matrix acidizing (HRMA) treatments will stimulate multiple flow zones with conductivity differences that are greater than an order of magnitude. The alternative plug-perforate-stimulate-repeat process has been successfully implemented, but it incurs much higher costs than conventional methods and requires a high demand of well intervention operational resources. Placement control is obtained by perforating each flow zone separately and then stimulating prior to isolating with a millable mechanical isolation plug. All the plugs are milled out, and zones are cleaned out to contribute to the overall inflow. The key driving force for using the plug-perforate-stimulate method in a multizone well is the effectiveness of the stimulation in treating each zone individually. Other means of placement, such as coiled-tubing-deployed stimulations, are less frequently utilized due to the cost and limitations in pump rate and pump pressure through the coil. Degradable particulate diverters were adopted as a cost-effective diversion technique that retained much of the advantage of a pinpointed or focused stimulation. The asset team worked closely with the service providers to determine the size, type, and volume of degradable particulate diverter pill to be deployed. Fracturing rates and pressures were determined prior to each treatment to ensure an HRMA treatment could be designed and deployed effectively to pump the stimulation fluid train at as high rate as possible to create wellbore diversion while not fracturing any of the combination of the flow zones. This paper summarizes the latest optimization and successful placement cases from a multiwell project where the wellbore diverters were optimized and placed in HRMAs and acid fracturing treatments where the results significantly exceeded expectations. Technical details of the actual cases are disclosed, and the latest developments are presented with actual field data.

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A Cost-Effective Stimulation Workflow Unlocks New Perspectives for Matrix Acidizing in Openhole Horizontal Tight Carbonate – A Case Study from West Kuwait

Cited by 8 publications

References 7 publications

Directional Tapping Technology of Residual Oil in Carbonate Reservoir

Directional Tapping Technology of Residual Oil in Carbonate Reservoir

Integrated Workflow of Acid Stimulation Evaluation and Selection for Productivity Enhancement in Carbonate Rocks

A Novel Hybrid Acid Stimulation/Fracturing Technique Developed for North Kuwait Jurassic Gas, Utilizing Particulate Diverters for Wellbore Diversion

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