High Precision Fluid Sampling for Gas Condensate Reservoirs and Facilities Concept Development

Kabir Akim, Nengkoda Ardian, Senan H. Bokhamseen
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引用次数: 0

Abstract

Fluid sampling and accurate PVT characterization is an important part of any field development planning and its long term management. Accurate characterization of the fluid gives confidence to project economics and can help avoid big losses due to improper facilities design and forecasting. In the oil & gas industry there is a lack of understanding in the requirements for high precision sampling for impurities and analytical methodologies to accurately characterize gas condensate for facilities design. The objective of this paper is to evaluate the current industry sampling best practices and define a new workflow for reliable gas condensate and impurities characterization for facilities development during the exploration/delineation phase of a field's life. The proposed methodology is significantly impacted by reservoir fluid saturation pressure relative to the static reservoir and flowing bottomhole pressures. It allows better profiling of complex gas condensate impurities such as H2S, and its sulfur intermediate species like polysulfides and elemental sulfur, volatile organic sulfur species such as mercaptans and carbonyl sulfides, and as well as Mercury, Arsenic, Benzene Toluene, Ethylbenzene and Xylene (BTEX), water, solids, N2, CO2, He, Radon. The application of the new proposed workflow provides accurate and reproducible PVT data sets for reservoir studies and facilities design.
用于凝析气藏和设施的高精度流体采样概念开发
流体取样和准确的PVT表征是任何油田开发规划及其长期管理的重要组成部分。流体的准确表征为项目的经济效益提供了信心,并有助于避免因设施设计和预测不当而造成的巨大损失。在石油和天然气行业中,对杂质的高精度采样和分析方法的要求缺乏了解,无法准确表征设施设计中的凝析气。本文的目的是评估当前行业采样的最佳实践,并定义一个新的工作流程,为油田勘探/圈定阶段的设施开发提供可靠的凝析油和杂质表征。相对于静态油藏和流动井底压力,所提出的方法受到油藏流体饱和压力的显著影响。它可以更好地分析复杂的凝析气体杂质,如H2S及其硫中间物质,如多硫化物和单质硫,挥发性有机硫物质,如硫醇和羰基硫化物,以及汞,砷,苯,甲苯,乙苯和二甲苯(BTEX),水,固体,N2, CO2, He,氡。新工作流程的应用为油藏研究和设施设计提供了准确、可重复的PVT数据集。
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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