Mechanical Properties of Cementitious and Non-Cementitious System After Ageing Tests for Well Abandonment Cementing Operations

Ingrid Ezechiello da Silva, Vivian Karla Castelo Branco Louback Machado Balthar, R. D. T. Filho, Gabriella de Medeiros de Sá Cavalcante, R. Santos
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Abstract

The plug and Abandonment (P&A) are the final stage of the life cycle of an oil well. This implies that the plugging material must withstand the chemicals, temperature and well pressure to ensure its long-term integrity. Portland cement is the most used material as a safety barrier in P&A operations. However, the extreme conditions of the well have challenged the mechanical properties of Portland Cement. In this context, the present work aims to identify the adequate systems as permanent plugging material and to characterize them with a qualification process based on international references and experimental validation. Hence, four systems were tested for plug cementing operation with composition variations under pre-defined ageing conditions. Class G Portland cement slurry was used as reference to allow comparison of mechanical properties (compressive strength and tensile strength) between flexible cement paste, a system containing a mixture of Class G Portland Cement with epoxy resin and finally a system with epoxy resin only. Samples containing Class G Portland Cement were cured for 14 days under well bottom conditions (3000 psi and temperature of 174 degrees Fahrenheit) and cured for 14 days at well temperature (using a thermal bath). Samples containing resin were cured for 14 days under well bottom conditions (3000 psi and temperature of 150 degrees Fahrenheit) and cured for 14 days at well temperature (using a thermal bath). Finally, the samples were aged for 60 days in a thermal bath at well temperature and exposed to the brine which is the completion fluid composition which will be above and below in contact with the well barrier in a P & A operation. The results of the compressive strength tests of the samples aged in brine showed tha in some systems tested the reduction of the modulus of elasticity occurred, however, it was also observed the increase of the modulus of elasticity in another system. The same was true of the results of tensile strength tests of aged samples, the increase of rupture loading in some systems and reduction in the other ones were observed. The mechanical tests of the samples before and after ageing were performed to define the best system to be used in a well abandonment operation aiming for long-term integrity.
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弃井固井作业中胶凝与非胶凝体系老化测试后的力学性能
封井弃井(P&A)是油井生命周期的最后阶段。这意味着堵漏材料必须承受化学物质、温度和井压,以确保其长期完整性。波特兰水泥是P&A作业中最常用的安全屏障材料。然而,井的极端条件对波特兰水泥的力学性能提出了挑战。在这种情况下,目前的工作旨在确定适当的系统作为永久堵塞材料,并通过基于国际参考和实验验证的鉴定过程来表征它们。因此,在预先设定的老化条件下,测试了四种不同成分的水泥塞固井作业。以G级波特兰水泥浆为参照,比较柔性水泥浆、含有G级波特兰水泥与环氧树脂混合物的体系和仅含有环氧树脂的体系的力学性能(抗压强度和抗拉强度)。含有G级波特兰水泥的样品在井底条件下(3000 psi和174华氏度)固化14天,在井底温度下(使用热浴)固化14天。含树脂的样品在井底条件下(3000psi,温度150华氏度)固化14天,在井底温度下(使用热浴)固化14天。最后,样品在井温下的热浴液中陈化60天,并暴露于卤水中,卤水是完井液成分,在p&a作业中,它将与井的上部和下部接触。卤水陈化试样的抗压强度试验结果表明,在某些体系中试样的弹性模量有所降低,但在另一体系中试样的弹性模量有所增加。老化试样的抗拉强度试验结果与此相同,有的体系的断裂载荷增大,有的体系的断裂载荷减小。对老化前后的样品进行了力学测试,以确定在弃井作业中使用的最佳系统,以实现长期完整性。
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