Experimental Investigation of Methane Absorption for Offshore Gas Influx Management

Volume 10: Petroleum Technology Pub Date : 2022-06-05 DOI:10.1115/omae2022-78721

Shahriar Mahmud, Yuanhang Chen

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Abstract

During oil and gas drilling operations, formation gas (mostly methane) may enter the wellbore annulus or the drilling riser. This gas influx may get absorbed into the surrounding mud causing complexity for kick detection. Absorption mass transfer experiments of methane into four different fluid systems were performed. The continuous phase for all these fluids was Internal olefins (IO) which is widely used within the drilling industry as a base fluid. Two of the fluids were emulsions (Water as the second phase) and the other fluid comprised of Internal Olefins with Suspentone. Ultrahigh purity methane was used as the absorbing gas phase. The system pressure was kept at 100psi (0.689MPa) with a superficial velocity of 0.009 m/s. Volumetric mass transfer coefficients (kLa) from these experiments were individually determined using a bubble column with an internal diameter of 0.0381m. The volume of the liquid was kept constant during each of the tests. It was observed that methane in pure IO has the highest kLa value while its value is the lowest when it was flown through the IO/Water/suspentone fluid system. The reduction of kLa values was attributed to the increase of viscosity of the fluid and reduction of interfacial area of the IO due to the addition of water.

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海上天然气涌入管理中甲烷吸收的实验研究

在油气钻井作业中，地层气体(主要是甲烷)可能进入井筒环空或钻井隔水管。这些气体流入可能会被周围的泥浆吸收，从而增加了检测井涌的复杂性。进行了甲烷在四种不同流体体系中的吸收传质实验。所有这些流体的连续相都是内烯烃(IO)，它在钻井工业中广泛用作基础流体。其中两种液体是乳剂(水作为第二相)，另一种液体由含有悬浮酮的内部烯烃组成。采用超高纯度甲烷作为吸附气相。系统压力保持在100psi (0.689MPa)，表面流速为0.009 m/s。这些实验的体积传质系数(kLa)分别使用内径为0.0381m的气泡柱测定。每次试验时，液体的体积都保持不变。结果表明，甲烷在纯IO中kLa值最高，而在IO/水/悬浮液体系中kLa值最低。kLa值的降低是由于液体粘度的增加和IO的界面面积由于水的加入而减少。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Volume 10: Petroleum Technology

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