Ensuring Zonal Isolation in Cementing Jobs of Gas Well

Day 2 Tue, July 28, 2020 Pub Date : 2020-07-20 DOI:10.2118/199094-ms

Edgar Jiménez, E. Vásquez, Nelson A. Velásquez, Luis Vega

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引用次数: 1

Abstract

One of the critical conditions in cementing operations of gas wells, is the underbalance that generates the entry of preflush in the annular space, especially with the use of in the fluid train, therefore, trying to ensure the pore Pressure control incorporating to the fluid system, only an extensive volume of Spacer. In this way a possible gas inflow is avoided that would lead to enormous economic losses, however in terms of a good removal, just having a spacer in the preflush system would only be Fulfilling a single function that is the drag of suspended solids. in the annular space without being able to disperse and reduce its solid structures. Our methodology has been proven in fields with high GOR and good petrophysical and reservoir conditions, which intend to add a volume of washes to the preflush system, thus Hydrostatic Balance with a low Rheological Spacer volume behind the mud. The preflush system is by batch and pumped at 4.0 bpm continuous, considering a volume of 20 barrel máximum to generate a contact time greater than five minutes, thus improving the conditions of removal, diluting, dispersing and moisturizing the wellbore and casing external. It evaluates Primary cement Using bond logs that was run three days after the cementing operation. The logging results indicate an average amplitude of around 5 mV, so the 5 ½" in. Casing cement job had 90% average bond index. Good zonal isolation was achieved. In addition, Mechanical factors such as reciprocating the casing once carried to Depth, and casing centralization with Standoff greater than 80%, guarantee zonal Isolation in the área of productive. The addition of a Surfactant to the formulation of the washes favors the water wettability of the wellbore in fron of cement. The use of surfactants in preflushes entrain invading gas downhole and créate a stable foam. This foam then presents significant resistance to flow, thereby limiting upward migration (Marrast et al, 1975). With regard to the properties of grouts dominate the rheologic behavior, with filtrations less than 50 cc /30 min, and compressive strength greater than 1,100 psi

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确保气井固井作业的层间隔离

气井固井作业的关键条件之一是，欠平衡会导致预冲水进入环空空间，特别是在流体系中使用时，因此，为了确保孔隙压力控制与流体系统相结合，只能使用大量的隔离剂。通过这种方式，可以避免可能导致巨大经济损失的气体流入，然而，就去除效果而言，在预冲洗系统中仅使用隔离剂只能实现一个单一功能，即悬浮固体的阻力。在环形空间中不能够分散和减少其固体结构。我们的方法已经在高GOR、岩石物性和储层条件良好的油田得到了验证，这些油田打算在预冲系统中添加一定量的洗井液，从而实现流体静力平衡，在泥浆后面使用低流变性隔离剂。预冲洗系统是分批的，以4.0 bpm的连续泵送，考虑到20桶的体积máximum，产生大于5分钟的接触时间，从而改善了清除、稀释、分散和润湿井筒和套管外部的条件。该系统使用固井作业后3天下入的胶结测井来评估初级固井。测井结果表明，平均振幅约为5 mV，因此，5½in。套管固井作业的平均粘结指数为90%。取得了良好的层间隔离效果。此外，套管的往复下入和套管扶正度大于80%等机械因素，保证了área生产阶段的层间隔离。在洗液配方中加入表面活性剂有利于提高水泥中井筒的润湿性。在预冲液中使用表面活性剂可以将入侵气体夹带到井下，形成稳定的泡沫。然后，这种泡沫表现出明显的流动阻力，从而限制了向上迁移(Marrast等人，1975)。浆料的流变特性占主导地位，滤过量小于50cc / 30min，抗压强度大于1100psi

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Day 2 Tue, July 28, 2020

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