Precise Cement Displacement with a New Cement Plug Tracking Method

A. Kabannik, R. Korkin, D. Demidov, Andrey O. Fedorov, Aleksandra Khudorozhkova, Micaela Nieczkoski
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Abstract

During the primary well cementing operation, when the cement slurry is pumped into the annulus around the outside of the casing string, it is very critical not to over displace and let the displacement fluid enter the annulus. Traditionally, to determine when to stop the cement displacement operation, the top cement plug position is tracked volumetrically by dividing the displaced volume by the casing internal cross-sectional area. However, the volumetric method is prone to uncertainties related to displacement fluid compressibility, high-pressure pump inefficiency, flowmeter inaccuracy, and variance in casing joint diameters. The new cost-effective cement displacement monitoring method is based on the analysis of the pressure pulses generated by the top cement plug passing the casing. These pressure pulses are detected by the standard pressure transducer installed at the cementing head. When correlated with the casing tally, these pulses identify the plug position related to the completion elements that provide better accuracy than the volumetric method used conventionally. The case studies include the successful cement displacement monitoring example and the case where the plug was prematurely stopped 90 meters above the landing collar, which was revealed by the subsequent drilling and confirmed independently by the new plug tracking method.
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一种新的水泥塞跟踪方法的精确水泥置换
在第一次固井作业中,当将水泥浆泵入套管柱外部的环空时,至关重要的是不要过度置换,以免置换液进入环空。传统上,为了确定何时停止水泥顶替作业,通过将顶替体积除以套管内部截面积来跟踪顶部水泥塞的位置。然而,容积法容易存在与驱油流体可压缩性、高压泵效率低下、流量计不准确以及套管接头直径变化等相关的不确定性。新的水泥位移监测方法是基于分析顶部水泥塞通过套管时产生的压力脉冲。这些压力脉冲由安装在固井头的标准压力传感器检测。当与套管计数相关联时,这些脉冲识别出与完井元件相关的桥塞位置,比传统的体积法提供更高的精度。案例研究包括成功的水泥位移监测案例,以及桥塞过早停在离接箍90米处的案例,这是后续钻井发现的,并由新的桥塞跟踪方法独立确认。
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