Gas transport at dense phase conditions for the development of deepwater fields in the Colombian Caribbean sea

M. Simancas, Angélica María Rada Santiago, B. Vera
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引用次数: 3

Abstract

The purpose of this article is to set out the benefits of using the dense phase gas transport in future projects in the Caribbean Sea and to verify that when operating pipelines at high pressures, more mass per unit of volume is transported, and liquid formation risks are mitigated in hostile environments and low temperatures.This study contains key data about gas production fields in deep and ultra-deep waters around the world, which serve as a basis for research and provide characteristics for each development to be contrasted with the subsea architecture proposed in this paper. Additionally, analogies are established between the target field (Gorgon-1, Kronos-1 and Purple Angel-1) and other offshore gas fields that have similar reservoir properties. Using geographic information systems, the layout of a gas pipeline and a subsea field architecture that starts in the new gas province is proposed.Finally, using a hydraulic simulation tool, the gas transport performance in dense phase is analyzed and compared with the conventional way of transporting gas by underwater pipelines, achieving up to 20 % in cost savings when dense phase is applied.
哥伦比亚加勒比海深水油田开发中致密相条件下的天然气输送
本文的目的是阐述在加勒比海未来的项目中使用致密相气输送的好处,并验证当管道在高压下运行时,单位体积的输送质量更高,并且在恶劣环境和低温下降低了液体地层风险。本研究包含了世界各地深水和超深水气田的关键数据,这些数据可以作为研究的基础,并为每个开发提供特征,以便与本文提出的海底结构进行对比。此外,在目标气田(Gorgon-1、Kronos-1和Purple Angel-1)与其他具有类似储层性质的海上气田之间建立了类比。利用地理信息系统,提出了在新天然气省开始的天然气管道布局和海底油田结构。最后,利用水力仿真工具,分析了致密相输气性能,并与传统的水下管道输气方式进行了比较,结果表明,采用致密相输气方式可节省高达20%的成本。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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