需要一个全面的水泥数据库——一种通过对水泥性能进行编目的最佳实践的新方法

J. J. Abraham, Cameron Devers, C. Teodoriu, M. Amani
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引用次数: 1

摘要

在常规的井设计中,水泥环是保护井完整性的主要屏障之一。一旦井筒固井,随着时间的推移,井将暴露在各种条件和环境中,这些条件和环境可能会影响固井的完整性,对其结果的研究和记录很少。考虑到水泥配方和配方也多种多样,研究井下水泥性能并对结果进行分类的任务变得更加复杂,需要一个综合的信息数据库。本文的目的是记录理想的水泥性能,开发一种最佳的方法来呈现这些数据,并构建一个集成这些信息的数据库,并允许简化数据输入和检索。在骨料水泥配方及其随时间变化的相应性能时,必须考虑多个变量。为了测试这些水泥配方在一段时间内的性能,需要在各种受控环境中制作和陈化样品,并定期测试其性能。该数据库具有合适的界面,提供直观的数据输入和实用的分析能力,并适当输入所使用的水泥类型、添加的添加剂、水泥混合物随时间的特性以及对样品进行的任何相应分析,以最大限度地实现最佳实践。由于地质、钻井技术和标准的不同,通常需要使用不同的水泥配方和不同的添加剂,以适应每种作业。这些添加剂包括加速剂、缓速剂、填充剂、称重剂、流体和损失控制添加剂,以及特殊添加剂,如乳胶、纤维添加剂和泡沫水泥。数据库接口的设计是为了适应水泥配方的这些变化,并随着时间的推移跟踪样品的特性,并全面了解样品的老化行为。根据来自工业、文献和实验室实验的信息,诸如无侧限抗压强度(UCS)、增稠时间、凝胶强度发展、密度等特性将被整合到数据库中。数据分析策略也将应用于汇总的信息,并且样本随时间的属性将与现场数据以及文献相关联,以确保数据的适当表示和准确性。所收集的数据库和知识将被用作信息来源,以加强常见的固井实践,以及开发和完善行业最佳实践,这将适用于世界上的任何固井作业。目前,本文中介绍的数据库包含超过1000个独特的水泥样品,由多个个人准备和记录,旨在创建一个独特的水泥库和数据库,专注于水泥的长期性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Need for a Comprehensive Cement Database - A Novel Approach to Best Practices by Cataloging Cement Properties
In conventional well design, the cement sheath acts as one of the primary barriers of protection in the well integrity matrix. Once the wellbore cement is set, the well is exposed to various conditions and environments over time which can impact the integrity of the cement, the results of which are poorly studied and documented. Given that there are also multiple cement recipes and formulations – the task of studying downhole cement performance and categorizing said results becomes more complicated, requiring the need for an integrated database of information. The objective of this paper is to document desirable cement properties, develop an optimal method for presenting this data, and construct a database which integrates this information and allows streamlined data entry and retrieval. Multiple variables must be considered when aggregating cement recipes and its corresponding properties over time. To test the behavior of these cement recipes over time, samples are created and aged in various controlled environments, and the properties tested periodically. The database was developed with a suitable interface to provide intuitive data entry and practical analysis capability, with proper inputs for the types of cement used, additives added, properties of the cement mixtures over time and any corresponding analysis performed on the samples in order to maximize best practice. Differences in geology, drilling techniques and standards often require the use of different cement recipes with varied additives to cater to each job. These include accelerators, retarders, extenders, weighing agents, fluid and loss control additives, as well as special additives such as latex, fiber additives and foam cements. The database interface is designed to accommodate these variations in the cement recipes and track the properties of samples over time and give a comprehensive understanding of the behavior of the samples as they age. With information from the industry, literature, and laboratory experiments, properties such as the Unconfined Compressive Strength (UCS), thickening times, gel strength development, densities, to name few will be integrated in the data base. Data analytics strategies will also be applied on the information aggregated, and the properties of the samples over time will be correlated to field data as well as literature to ensure proper representation and accuracy of the data. The database and the knowledge collected will be utilized as a source of information to enhance common cementing practices, as well as develop and refine industry best practices, which will be applicable to any cement job in the world. Currently, the database presented in this paper contains over 1000 unique cement samples, prepared and documented by multiple individuals with an aim to create a unique cement repository and database that focuses on long term cement properties.
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