Un-Manned Minimal Floating Platforms

E. Beyko, A. Sablok, M. Pegg
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Abstract

A normally un-manned minimal floating platform can be used for several applications to support subsea development. The applications include enabling Long Subsea Tiebacks by supporting power generation and distribution equipment, when the host facility doesn't have excess power capacity (Power Buoy) or the required footprint and space to support the required power distribution hardware or locate the distribution equipment to distribute the power imported from shore. It can also serve as a partial processing host with functionality ranging from Chemicals and Artificial Lift all the way to Multi-Phase Pumping or Gas Compression, as required. An un-manned floating platform can be a cost-efficient solution, where the economics of a very Long Subsea Tieback or a Host Facility with full processing capacity become prohibitive for developing small to medium size fields. The substructures for these platforms have reduced and simplified systems resulting in lower Capex, Opex and minimal maintenance requirements. This platform is safer to operate than conventional host platforms because it is un-manned, and it also deploys robotics and remotely controlled equipment, using the latest advances in digital, robotics, and autonomous control technologies. The paper reviews the different floating unmanned minimal platform configurations that are designed for this purpose. The following aspects of the normally un-manned floating platform are discussed: Functionality Cost-Efficient Design alternatives Construction/Installation efficiency Operations/ Maintenance principles Possible applications of the normally un-manned floating platform include small to medium size fields, remote gas fields requiring compression to export gas to shore that would otherwise prove to be un-economical to develop. The normally un-manned floating platform helps improve the development economics and the operational safety of these fields. The industry's response to the oil price slump in the past few years combined with the latest advances in technology led to the evolution of these minimal unmanned floating platforms.
无人最小浮动平台
通常无人驾驶的小型浮动平台可用于多种应用,以支持海底开发。这些应用包括,当主机设施没有多余的电力容量(power Buoy)或所需的占地面积和空间来支持所需的配电硬件或定位配电设备来分配从岸上进口的电力时,通过支持发电和配电设备来实现长海底回接。它还可以作为部分处理主机,功能范围从化学品和人工举升一直到多相泵送或气体压缩,根据需要。无人浮动平台是一种经济高效的解决方案,对于开发中小型油田来说,非常长的海底回接或具有全处理能力的主机设施的经济效益令人望而却步。这些平台的子结构减少和简化了系统,从而降低了资本支出和运营成本,并将维护需求降至最低。该平台比传统主机平台操作更安全,因为它是无人驾驶的,而且它还部署了机器人和远程控制设备,使用了最新的数字、机器人和自主控制技术。本文回顾了为此目的而设计的不同的浮动无人最小平台配置。通常无人浮动平台的以下几个方面进行了讨论:功能成本效益设计方案施工/安装效率操作/维护原则通常无人浮动平台的可能应用包括中小型油田,需要压缩将天然气出口到岸上的偏远气田,否则将被证明是不经济的。通常无人操作的浮动平台有助于提高这些油田的开发经济性和操作安全性。在过去的几年里,石油行业对油价暴跌的反应,加上最新的技术进步,导致了这些小型无人浮动平台的发展。
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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