New Generation Impulse Testing: An Environmentally Friendly Well Testing Solution for Tight Reservoirs to Acquire Accurate Reservoir Information

Y. Shumakov, F. Hollaender, Andrew Williams, J. Munro, B. Theuveny
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引用次数: 1

Abstract

Exploration, appraisal, and production well tests have always been a primary source of information for reservoir characterization, well deliverability estimation, and monitoring of field development. Well test operations are one of the most challenging operations performed at the wellsite today, especially in tight oil and gas reservoirs with limited capability or inability of the well to flow naturally and produce reservoir hydrocarbons to surface. Conventional drill stem tests (DSTs) may also not be applicable in some cases due to the high cost of operations or other constraints. Over time, environmental considerations and regulations have become stricter and one of the most significant limiting factors for conducting conventional DST operations in some geographical areas. DST operations in tight reservoirs have always been limited and deemed challenging due to complexities associated with the ability to create enough pressure drawdown, high risks associated with the inability of the well to flow to surface to unload the liquids from the wellbore, and clean-up of the well to unlock true reservoir potential. Therefore, for the last several decades, the oil industry has been trying to find the most effective ways to flow test these wells to determine essential reservoir information and minimize field development risks. Impulse testing is not a new concept and enables testing a well using a simple DST or tubing-conveyed perforating (TCP) string with no flow of hydrocarbon to surface. This method also reduces cost in comparison with conventional DST operations or other standard testing methods. Until recently, the application of this type of test has been limited, mainly by the complexity of interpreting the test data, limited functionalities of the tools, low success rate, and poor quality of acquired data. With the evolution of downhole DST tool technology and enhancements in well test design, along with the appropriate equipment selection, a new generation of low flow rate impulse tests have been engineered for success by bringing together a multidisciplinary team and emphasizing the importance of the job design. The paper describes cost-effective, practical, and proven impulse testing methods for tight oil and gas reservoirs. The proposed methods are versatile and adaptive to the operating environment and the operator's requirements. The zero-emission well testing solution is based on proven conventional well test interpretation methods and a combination of technologies, workflows, and unique equipment arrangements that make it possible to flow test the wells to determine key reservoir dynamic parameters and the productivity indices of new wells during DST or TCP operations or during workover operations if the wells are currently in production. This paper also presents several field examples from operations performed around the globe, with results of the successful pressure transient analysis of the data recorded during the tests that enabled characterizing the reservoir economically and in two cases, with no environmental impact.
新一代脉冲测试:一种环保的致密储层测试解决方案,可获得准确的储层信息
勘探、评价和生产试井一直是油藏描述、产能估计和油田开发监测的主要信息来源。试井作业是当今井场最具挑战性的作业之一,特别是在致密油气储层中,由于井的自然流动能力有限或无法将储层的碳氢化合物生产到地面。由于操作成本高或其他限制,常规钻杆测试(DSTs)在某些情况下也可能不适用。随着时间的推移,环境因素和法规变得越来越严格,这也是在某些地理区域进行常规DST作业的最重要限制因素之一。致密储层的DST作业一直受到限制,并且被认为具有挑战性,因为其复杂性与能否产生足够的压降有关,与井无法流至地面以卸载井筒中的液体有关的高风险,以及与清理井以释放真正的油藏潜力有关。因此,在过去的几十年里,石油行业一直在努力寻找最有效的方法来测试这些井的流量,以确定基本的油藏信息,并将油田开发风险降到最低。脉冲测试并不是一个新概念,它可以使用简单的DST或油管输送射孔(TCP)管柱进行测试,而不需要将碳氢化合物流到地面。与传统的DST操作或其他标准测试方法相比,该方法还降低了成本。直到最近,这种类型的测试的应用一直受到限制,主要是由于解释测试数据的复杂性、工具的有限功能、低成功率以及获得的数据质量差。随着井下DST工具技术的发展和试井设计的改进,以及适当的设备选择,新一代的低流量冲击测试通过汇集多学科团队并强调作业设计的重要性而获得成功。本文介绍了经济、实用、成熟的致密油气储层冲量测试方法。所提出的方法具有通用性强,能适应作业环境和作业人员的要求。零排放试井解决方案基于经过验证的常规试井解释方法,结合技术、工作流程和独特的设备配置,可以在DST或TCP作业期间或在修井作业期间对新井进行流动测试,以确定关键的油藏动态参数和产能指标。本文还介绍了在全球范围内进行的几个油田实例,并对测试期间记录的数据进行了成功的压力瞬态分析,从而经济地描述了储层特征,并且在两个案例中没有对环境造成影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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