Advanced Remedial Hydraulic Isolation by Perforate and Wash Technique

A. Yugay, H. Daghmouni, Andrey Nestyagin, F. Abdulsallam, Annie Morales, G. Salem, Saleh Salem Al Ameri, Ali Yahya Suleiman, Sandip Kumar, Daniel McPherson, Andre Kjonnerod, Mousa Bakri, Ali ElMobaddr
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Abstract

Well Cementing can be divided into two phases – primary and remedial cementing. Primary cementing may have 3 functions: casing support, zonal isolation and casing protection against corrosion. First two functions are commonly recognized while the third one might be a point of discussion, as the full casing coverage with 100% clean cement is not something common in most of the fields. In fact, poorly cemented areas of the casing may become negatively charged and create a zones of accelerated corrosion rate. This paper is about main role of cementing - zonal isolation. The process of primary cementing assumes that cement slurry is being pumped into the casing and displaced outside. After wait on cement time (WOC) it becomes hard, develops compressive strength and creates impermeable seal that ensures hydraulic isolation. Old and well-known technique, it still remains one of the most challenging rig operations. It is unlikely to find a service company that would guarantee 100% cement displacement behind the casing all the way from top to bottom. Main challenges in this region are quiet common for many other fields – displacement in deviated sections, losses before and during cementing, exposure to pressure during cement settling. In case the main target is not achieved (no hydraulic isolation behind the casing) – we may observe behind casing communications resulting in sustainable pressures in casing-casing annuluses. In this situation the remedial cementing takes place. It's function is to restore isolation so the cement can work as a barrier that seals off the pressure source. Despite of the good number of sealants available on the market (time, pressure, temperature activated) that can be injected from surface to cure this casing-casing pressure, Company prefers not to do so unless there is a proven injectivity capability that would allow for the sealant to reach deep enough, to protect aquifers in case of outer casing corrosion. Otherwise that would be just a ‘masking" the pressure at surface. Therefore in general Company prefers rig intervention to cure the pressure across the cap rock in between the aquifers and the reservoir. Those aquifers are illustrated on the Figure 1 below: More details on Company casing design, cement evaluation issues, sustained casing pressure phenomena and challenges have been mentioned previously [Yugay, 2019].
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射孔洗井技术的先进补救水力隔离
固井可分为初级固井和补救固井两个阶段。一次固井有3种功能:套管支撑、层间隔离和套管防腐。前两种功能是公认的,而第三种功能可能是讨论的重点,因为100%清洁水泥覆盖整个套管在大多数油田并不常见。事实上,套管胶结不良的区域可能会带负电荷,并产生加速腐蚀速率的区域。本文论述了固井的主要作用——层间隔离。初次固井的过程假设将水泥浆泵入套管并在外部置换。在等待水泥时间(WOC)后,它变得坚硬,抗压强度提高,并形成不渗透密封,确保水力隔离。这是一项众所周知的老技术,但仍然是最具挑战性的钻井作业之一。很难找到一家服务公司能够保证从上到下套管后100%的水泥置换。该地区的主要挑战与许多其他油田一样,如斜井段的位移、固井前和固井期间的漏失、水泥沉降过程中的压力等。如果主要目标没有实现(套管后面没有液压隔离),我们可能会观察到套管后面的通信导致套管-套管环空的持续压力。在这种情况下,需要进行补救性固井。它的作用是恢复隔离,这样水泥就可以作为密封压力源的屏障。尽管市场上有很多密封剂(时间、压力、温度激活)可以从地面注入,以消除套管压力,但公司倾向于不这样做,除非有证明的注入能力,可以使密封剂到达足够深的地方,以保护含水层,以防外部套管腐蚀。否则,这将只是“掩盖”表面的压力。因此,一般来说,公司更倾向于钻机干预来缓解含水层和储层之间盖层的压力。这些含水层如下图1所示:关于公司套管设计、水泥评价问题、持续套管压力现象和挑战的更多细节已在前面提到[Yugay, 2019]。
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