Production Enhancement in Tight Carbonate Reservoir with Propellant Stimulation Technique: Case Study in the State of Kuwait

M. Al-Awadi, B. Al-Ajmi, Akash Ranjan, Yousef Al-Enezi
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Abstract

The objective of this paper is to describe the production enhancement by the application of Propellant stimulation perforation during testing. During testing of a very tight carbonate reservoir (5% average porosity) the well productivity before and after propellant stimulation was studied for it's effectiveness. Propellant stimulation is achieved by burning the propellant material chemically and generating the gas by combustion. Gases generate a peak pressure that exceeds the fracture gradient of formation. High pressure gases injects at extremely high rates for a few milliseconds, resulting in creating micro fractures in the reservoir near the wellbore area which may result in good reservoir connectivity. Based on the subsurface information from offset wells, a vertical exploratory well drilled to delineate the potential of the target reservoir. Three sets of intervals were perforated in the target carbonate reservoir, in underbalanced condition and all intervals were tested together with Drill Stem Test (DST) tools. Matrix stimulation carried out using emulsified acid. During cleanup period, the flowing pressure continuously declined and finally only gas return was observed at surface. Flow period lasted for 30 hours. Production logging results showed that only the top perforation interval was contributing to the well flow. After detailed review of PLT results and open hole logs the middle perforations was selected for the propellant stimulation. Well was filled with 2% KCL brine and the middle section was stimulated thru’ tubing using 15ft. of 2″ propellant stimulation tool on wireline. Matrix stimulation repeated with diverter and emulsified acid for all the perforated interval. Flowed the well for cleanup followed by rate measurement for 15 hours showed improved flowing pressure and increased liquid rate. Second production logging results showed that both the top and middle perforation interval is contributing to the total flow. Middle perforation contributing to flow after use of matrix propellant stimulation. Propellant stimulation was successfully applied in tight carbonate reservoir. The production logs recorded pre & post of the propellant stimulation clearly indicates gain in oil production rate & improvement of flowing pressure in tight carbonate reservoir. During Shut-in survey, no cross flow was observed between the perforations and no flow behind casing. The data acquired using production logging will provide procedures for testing new exploration wells in similar reservoirs. Propellant stimulation is economical and enhances the effectiveness of standard acid stimulation in carbonate reservoirs. Propellant stimulation executed in tight carbonate reservoir of exploration well in State of Kuwait was remarkable success. This mechanism will aid to produce oil from the tight carbonate reservoirs.
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采用推进剂增产技术提高致密碳酸盐岩储层产量:以科威特为例
本文的目的是描述在测试过程中应用推进剂增产射孔的增产效果。在某超致密碳酸盐岩储层(平均孔隙度为5%)试验中,研究了推进剂增产前后的油井产能效果。推进剂刺激是通过化学燃烧推进剂材料并通过燃烧产生气体来实现的。气体产生的峰值压力超过了地层的破裂梯度。高压气体以极高的速度注入,持续几毫秒,在靠近井筒区域的储层中形成微裂缝,这可能会导致良好的储层连通性。根据邻井的地下信息,钻一口垂直勘探井来圈定目标储层的潜力。在欠平衡条件下,对目标碳酸盐岩储层进行了三组层段的射孔,并使用钻杆测试(DST)工具对所有层段进行了测试。采用乳化酸进行基质增产。在清理过程中,流动压力不断下降,最终只在地面观察到返气现象。流期30小时。生产测井结果表明,只有顶部射孔段对井流量有影响。在详细审查了PLT结果和裸眼测井后,选择中间射孔进行推进剂增产。井中填充了2% KCL盐水,并通过15英尺长的油管对中段进行增产。2″电缆上推进剂增产工具。在所有射孔段重复使用暂堵剂和乳化酸进行基质增产。在进行清理作业后,进行了15小时的流量测量,结果表明流动压力有所改善,液量也有所增加。第二次生产测井结果表明,顶部和中间射孔段都对总流量有贡献。中间射孔有利于基质推进剂增产后的流动。推进剂增产在致密碳酸盐岩储层成功应用。推进剂增产前后的生产测井记录清楚地表明,致密碳酸盐岩储层的产油量有所增加,流动压力有所改善。在关井测量期间,射孔之间没有观察到交叉流动,套管后也没有观察到流动。利用生产测井获得的数据将为类似储层的新探井测试提供程序。在碳酸盐岩储层中,推进剂增产具有经济性和提高标准酸增产效果的优点。科威特国致密碳酸盐岩储层探井推进剂增产试验取得显著成功。这一机制有利于致密碳酸盐岩储层的采油。
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Drilling Optimization in Action - Delivering 125 Field Records in 6 Quarters Tight Reservoir: Characterization, Modeling, and Development Feasibility Production Enhancement in Tight Carbonate Reservoir with Propellant Stimulation Technique: Case Study in the State of Kuwait Field Trial Results for New Sand Control Technology for Water Injectors Impact of Natural Fractures in Reservoir Modelling and Characterization. Case Study in UAE
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