Gas migration through cement slurries analysis: A comparative laboratory study

Q4 Earth and Planetary Sciences International Journal of Mining and Geo-Engineering Pub Date : 2015-12-01 DOI:10.22059/IJMGE.2015.56113

A. Velayati, E. Kazemzadeh, H. Soltanian, B. Tokhmechi

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引用次数: 18

Abstract

Cementing is an essential part of every drilling operation. Protection of the wellbore from formation fluid invasion is one of the primary tasks of a cement job. Failure in this task results in catastrophic events, such as blow outs. Hence, in order to save the well and avoid risky and operationally difficult remedial cementing, slurry must be optimized to be resistant against gas migration phenomenon. In this paper, performances of the conventional slurries facing gas invasion were reviewed and compared with modified slurry containing special gas migration additive by using fluid migration analyzer device. The results of this study reveal the importance of proper additive utilization in slurry formulations. The rate of gas flow through the slurry in neat cement is very high; by using different types of additives, we observe obvious changes in the performance of the cement system. The rate of gas flow in neat class H cement was reported as 36000 ml/hr while the optimized cement formulation with anti-gas migration and thixotropic agents showed a gas flow rate of 13.8 ml/hr.

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水泥浆中气体运移分析:对比实验室研究

固井是每一次钻井作业的重要组成部分。保护井筒不受地层流体侵入是固井作业的主要任务之一。这项任务的失败会导致灾难性的事件，比如井喷。因此，为了挽救油井，避免危险和操作困难的补救固井，必须优化泥浆以抵抗气体运移现象。本文利用流体运移分析装置，综述了常规浆料面对气侵的性能，并与添加特殊气侵添加剂的改性浆料进行了比较。本研究的结果揭示了在浆料配方中适当使用添加剂的重要性。在纯水泥中，气体通过浆体的速率非常高;通过使用不同类型的添加剂，我们观察到水泥体系性能的明显变化。纯H类水泥的气体流动速率为36000 ml/hr，而含有抗气体迁移剂和触变剂的优化水泥配方的气体流动速率为13.8 ml/hr。

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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