Shashank Pathak, R. Tibbles, A. Bohra, S. Tiwari, Preeti Godiyal, Aniket Deo
{"title":"基于GIS平台的Aishwarya Barmer-Hill油田压裂冲击风险评价","authors":"Shashank Pathak, R. Tibbles, A. Bohra, S. Tiwari, Preeti Godiyal, Aniket Deo","doi":"10.2118/192117-MS","DOIUrl":null,"url":null,"abstract":"\n Frac Hit is an inter-well communication event where an offset well is affected by the pumping of a hydraulic fracturing treatment in a new well. Close well spacing, increased fracture density (number of fracs per well), and larger fracture treatments increase the chance of a Frac Hit. This paper demonstrates how a Geographic Information System (GIS) was used in the Barmer Hill oil reservoir to quantify the risks of a Frac Hit on a well by well basis.\n The Aishwarya Barmer Hill (ABH) field (<1 mD/cp) overlies the prolific Aishwarya Fatehgarh (AF) field (>3 Darcy's). The AF field was developed first with 71 wells. All of these wells for AF reservoir penetrated through shallower ABH reservoir at an average spacing of ∼100 m. The ABH field development plan calls for 1000 m long horizontal laterals with a ∼180 m distance between the wells to efficiently drain the entire ABH structure. The hydraulic fractures planned in ABH wells had an average fracture half-length of ∼100 m with 10 stages per well. With the spacing equal to the fracture half length, the likelihood of a Frac Hit between ABH horizontal wells was high. The presence of the nearby AF wells only added to the risk.\n GIS enabled software was used to evaluate the risk magnitude and the observations were used to prepare a mitigation plan. All the well trajectories for both reservoirs were mapped inside the 3D reservoir structure. As a first case, a potential strike zone (PSZ) with a radius equal to the frac half-length was generated around the planned ABH wells. Wells were considered at risk if a PSZ intersected another well or another PSZ. Then all of the planned hydraulic fractures were mapped in 3 dimensions using the known fracture propagation azimuth (from appraisal well micro-seismic data) and the simulated fracture dimensions (Half-lengths & heights) using fully 3D frac modeling software.\n The procedure clearly identified the cases (well/stage) which had a high potential for a Frac Hit. After identifying the high-risk cases, appropriate steps were taken to minimize the risk. The available options were to change the well trajectory, modify the fracture location (shift or remove stages), or propose additional surveillance.\n The Frac Hit phenomena is a sub-surface integrity related concern which has been reported on in many technical papers. This work proposes a method for quantifying and minimizing the risks using a GIS platform. A method for categorizing the various risk cases based on well spacing, perforation and fracture initiation points is proposed. This method was studied for the ABH wells during the well planning phase and shall be applied in order to minimize Frac Hit risks. The information provided could also be directly utilized for in-fill development project for tight fields.","PeriodicalId":11240,"journal":{"name":"Day 1 Tue, October 23, 2018","volume":"71 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2018-10-19","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"Evaluation of Frac Hit Risks in Aishwarya Barmer-Hill Field Development Utilising GIS Platform\",\"authors\":\"Shashank Pathak, R. Tibbles, A. Bohra, S. Tiwari, Preeti Godiyal, Aniket Deo\",\"doi\":\"10.2118/192117-MS\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"\\n Frac Hit is an inter-well communication event where an offset well is affected by the pumping of a hydraulic fracturing treatment in a new well. Close well spacing, increased fracture density (number of fracs per well), and larger fracture treatments increase the chance of a Frac Hit. This paper demonstrates how a Geographic Information System (GIS) was used in the Barmer Hill oil reservoir to quantify the risks of a Frac Hit on a well by well basis.\\n The Aishwarya Barmer Hill (ABH) field (<1 mD/cp) overlies the prolific Aishwarya Fatehgarh (AF) field (>3 Darcy's). The AF field was developed first with 71 wells. All of these wells for AF reservoir penetrated through shallower ABH reservoir at an average spacing of ∼100 m. The ABH field development plan calls for 1000 m long horizontal laterals with a ∼180 m distance between the wells to efficiently drain the entire ABH structure. The hydraulic fractures planned in ABH wells had an average fracture half-length of ∼100 m with 10 stages per well. With the spacing equal to the fracture half length, the likelihood of a Frac Hit between ABH horizontal wells was high. The presence of the nearby AF wells only added to the risk.\\n GIS enabled software was used to evaluate the risk magnitude and the observations were used to prepare a mitigation plan. All the well trajectories for both reservoirs were mapped inside the 3D reservoir structure. As a first case, a potential strike zone (PSZ) with a radius equal to the frac half-length was generated around the planned ABH wells. Wells were considered at risk if a PSZ intersected another well or another PSZ. Then all of the planned hydraulic fractures were mapped in 3 dimensions using the known fracture propagation azimuth (from appraisal well micro-seismic data) and the simulated fracture dimensions (Half-lengths & heights) using fully 3D frac modeling software.\\n The procedure clearly identified the cases (well/stage) which had a high potential for a Frac Hit. After identifying the high-risk cases, appropriate steps were taken to minimize the risk. The available options were to change the well trajectory, modify the fracture location (shift or remove stages), or propose additional surveillance.\\n The Frac Hit phenomena is a sub-surface integrity related concern which has been reported on in many technical papers. This work proposes a method for quantifying and minimizing the risks using a GIS platform. A method for categorizing the various risk cases based on well spacing, perforation and fracture initiation points is proposed. This method was studied for the ABH wells during the well planning phase and shall be applied in order to minimize Frac Hit risks. 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引用次数: 1
摘要
压裂冲击是井间通信事件,当邻井受到新井水力压裂处理泵送的影响时。缩小井距、增加裂缝密度(每口井的裂缝数量)以及加大压裂处理力度,都增加了压裂命中的几率。本文演示了如何在Barmer Hill油藏中使用地理信息系统(GIS),以每口井为基础量化压裂冲击风险。Aishwarya Barmer Hill (ABH)油田(3 Darcy’s)。AF油田首先开发,共71口井。所有AF油藏的井均以平均100 m的井距穿透较浅的ABH油藏。ABH油田开发计划要求1000米长的水平分支井,井间距离为180米,以有效地排出整个ABH结构。在ABH井中计划的水力裂缝平均半长为~ 100 m,每口井有10级压裂。当间距等于裂缝的一半长度时,ABH水平井之间发生压裂冲击的可能性很高。附近AF井的存在只会增加风险。利用支持地理信息系统的软件评估风险程度,并利用观测结果编制减灾计划。这两个油藏的所有井眼轨迹都被绘制在三维油藏结构内部。作为第一个案例,在计划的ABH井周围产生了一个半径等于压裂半长的潜在走向带(PSZ)。如果一个射孔区与另一口井或另一口射孔区相交,则认为该井存在风险。然后,利用已知的裂缝扩展方位角(来自评价井微地震数据)和模拟裂缝尺寸(半长和高度),利用全三维裂缝建模软件,将所有计划的水力裂缝绘制成三维图。该程序可以清楚地识别出可能发生压裂冲击的情况(井/段)。在确定高危病例后,采取适当措施将风险降至最低。可用的选择包括改变井眼轨迹、修改裂缝位置(移位或移除分段),或者提出额外的监控措施。压裂冲击现象是一个与地下完整性相关的问题,在许多技术论文中都有报道。这项工作提出了一种使用GIS平台量化和最小化风险的方法。提出了一种基于井距、射孔和裂缝起裂点对各种风险情况进行分类的方法。该方法是在井规划阶段针对ABH井进行的研究,旨在将压裂冲击风险降至最低。所提供的信息也可直接用于致密油田的充填开发项目。
Evaluation of Frac Hit Risks in Aishwarya Barmer-Hill Field Development Utilising GIS Platform
Frac Hit is an inter-well communication event where an offset well is affected by the pumping of a hydraulic fracturing treatment in a new well. Close well spacing, increased fracture density (number of fracs per well), and larger fracture treatments increase the chance of a Frac Hit. This paper demonstrates how a Geographic Information System (GIS) was used in the Barmer Hill oil reservoir to quantify the risks of a Frac Hit on a well by well basis.
The Aishwarya Barmer Hill (ABH) field (<1 mD/cp) overlies the prolific Aishwarya Fatehgarh (AF) field (>3 Darcy's). The AF field was developed first with 71 wells. All of these wells for AF reservoir penetrated through shallower ABH reservoir at an average spacing of ∼100 m. The ABH field development plan calls for 1000 m long horizontal laterals with a ∼180 m distance between the wells to efficiently drain the entire ABH structure. The hydraulic fractures planned in ABH wells had an average fracture half-length of ∼100 m with 10 stages per well. With the spacing equal to the fracture half length, the likelihood of a Frac Hit between ABH horizontal wells was high. The presence of the nearby AF wells only added to the risk.
GIS enabled software was used to evaluate the risk magnitude and the observations were used to prepare a mitigation plan. All the well trajectories for both reservoirs were mapped inside the 3D reservoir structure. As a first case, a potential strike zone (PSZ) with a radius equal to the frac half-length was generated around the planned ABH wells. Wells were considered at risk if a PSZ intersected another well or another PSZ. Then all of the planned hydraulic fractures were mapped in 3 dimensions using the known fracture propagation azimuth (from appraisal well micro-seismic data) and the simulated fracture dimensions (Half-lengths & heights) using fully 3D frac modeling software.
The procedure clearly identified the cases (well/stage) which had a high potential for a Frac Hit. After identifying the high-risk cases, appropriate steps were taken to minimize the risk. The available options were to change the well trajectory, modify the fracture location (shift or remove stages), or propose additional surveillance.
The Frac Hit phenomena is a sub-surface integrity related concern which has been reported on in many technical papers. This work proposes a method for quantifying and minimizing the risks using a GIS platform. A method for categorizing the various risk cases based on well spacing, perforation and fracture initiation points is proposed. This method was studied for the ABH wells during the well planning phase and shall be applied in order to minimize Frac Hit risks. The information provided could also be directly utilized for in-fill development project for tight fields.