数据驱动防喷器管道剪切无试验模拟方法

Yaou Wang, Chrissy Nault, M. Givens, Hai Tao Zhang, Ke Li
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引用次数: 0

摘要

防喷器(BOP)在石油和天然气行业的钻井过程中起到安全阀的作用。当地层流体涌入并威胁到钻井平台时,将关闭密封装置。冲压防喷器是一种广泛使用的防喷器。它由两个闸板刀片组成,两个闸板刀片相互移动,剪切钻杆并关闭阀门。为了确保在钻井平台上完成剪切过程,通常会进行实验室测试,以评估防喷器的性能和所需的剪切压力。在过去的十年里,基于有限元分析(FEA)的模拟方法已经建立起来,以预测剪切过程。模拟方法仍然需要管道损伤参数和实验室试验。本文通过分析闸板防喷器管柱剪切数据,提出了一种无需测试的模拟方法,大大缩短了交付周期和测试成本。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Test-Free Simulation Method for Blowout Preventer Pipe Shearing Powered by Data
A Blowout Preventer (BOP) serves as a safety valve in the drilling process in the oil and gas industry. It will be closed if an influx of formation fluids occurs and threatens the rig. A Ram BOP is one type of widely used BOP. It is composed of two ram blades, which will move toward each other to shear the drilling pipe and to close the valve. To ensure the shearing process is completed on the rig, lab tests are often run to evaluate the BOP’s capability and the required shearing pressure. Over the last decade, Finite element analysis (FEA) based simulation method has been set up to predict the shearing process. The simulation method still requires pipe damage parameters and requires lab test. This paper presents a test-free simulation method enabled by analyzing the ram BOP pipe shearing data, which significantly reduces the lead time and test costs.
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