A New Transient Thermal Model for Predicting Cooling Temperature and Cooldown Time of a Subsea Pipe-in-Pipe Flowline System Transporting Waxy Hydrocarbons

K. Shukla
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Abstract

The proper understanding of cooling temperature and cooldown time for the operation of a subsea system producing hydrocarbons from the reservoir to the host facility is one of the important flow assurance issues for managing heat retention in the production system due to solids formation and their deposition. In this paper, an analytical transient thermal model is developed for determining the cooling temperature and cooldown time for shut-in operations of a subsea pipe-in-pipe production system, transporting waxy crude oil from the reservoir to the host facility. Here, the cooldown time is defined as the time when the fluid temperature approaches the wax appearance temperature before reaching the hydrate formation temperature during any shut-in operations. The analytical model builds upon an inhomogeneous transient method incorporating an internal temperature gradient. The model results are benchmarked against the commercial OLGA simulation results for a few selected deepwater pipe-in-pipe flowline configuration. The model predictions resemble well with OLGA results over a range of conditions. The analytical model could optimize dry insulation and cooldown time requirements efficiently for the assumed PIP flowline configurations and fluid properties under any subsea environments.
用于预测输油管系统冷却温度和冷却时间的新瞬态热模型
对于从油藏到主机设备生产碳氢化合物的海底系统来说,正确理解冷却温度和冷却时间是管理由于固体形成和沉积而导致的生产系统热保留的重要流动保证问题之一。本文建立了一个分析的瞬态热模型,用于确定海底管中管生产系统关井作业的冷却温度和冷却时间,该系统将含蜡原油从油藏输送到主机设施。这里的冷却时间定义为在任何关井作业中,流体温度接近蜡样温度,然后达到水合物形成温度的时间。该分析模型建立在包含内部温度梯度的非均匀瞬态方法之上。模型结果与商业OLGA模拟结果进行了基准测试,用于几种选定的深水管中管管线配置。在一系列条件下,模型预测与OLGA结果非常相似。该分析模型可以有效地优化任何海底环境下假定的PIP管线配置和流体性质的干绝缘和冷却时间要求。
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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