Correlating the Performance of Friction Reducers with Source Water Chemistry

Day 2 Wed, April 10, 2019 Pub Date : 2019-04-08 DOI:10.2118/195199-MS

S. Hazra, Vanessa M. Madrid, T. Luzan, M. Domelen, C. Copeland

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引用次数: 4

Abstract

This paper provides a detailed evaluation of the impact that field source water chemistry has on the performance of friction reducers being used for hydraulic fracturing. In this research, correlations are established between friction reducer performance and source water chemical composition, allowing operators to shorten the learning curve within their fracturing operations, use the most appropriate fluid systems, and potentially mitigate job failures. Extensive testing has been conducted to evaluate friction reducer performance in the presence of different ionic components such as calcium, magnesium, iron and chloride. Performance testing was determined by varying individual ions, as well as using source waters from multiple field locations having total dissolved solid (TDS) levels of well over 100,000 ppm. Testing parameters included friction reduction, hydration rate via viscosity, and rheological characterization for viscosifying-type friction reducers. Principal component analysis was used as statistical tool to characterize the variation in water chemistry and to establish its relationship with friction reducer performance.

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减摩剂性能与水源化学关系的研究

本文详细评价了油田源水化学对用于水力压裂的减阻剂性能的影响。在这项研究中，研究人员建立了减摩剂性能与源水化学成分之间的相关性，使作业者能够缩短压裂作业中的学习曲线，使用最合适的流体系统，并有可能减少作业失败。在钙、镁、铁和氯化物等不同离子成分存在的情况下，已经进行了大量的测试来评估减摩剂的性能。性能测试是通过改变单个离子来确定的，并使用来自多个油田位置的总溶解固体(TDS)水平远远超过100,000 ppm的水源。测试参数包括摩擦减量、通过粘度产生的水化速率和增粘型摩擦减速器的流变特性。采用主成分分析作为统计工具来表征水化学的变化，并建立其与减摩剂性能的关系。

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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Day 2 Wed, April 10, 2019

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