Assessing Hydrate Formation in a Gas Condensate Subsea Tieback Using a Transient Hydrate Simulation Tool

Yan Wang, L. M. Rivero, T. Palermo, C. Koh, L. Zerpa
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Abstract

Current oil prices have shifted the offshore flow assurance philosophy from "hydrate avoidance" to "hydrate management". In order to manage hydrate formation in the pipeline, not only do we need to have a good understanding of the hydrate formation process, but also a comprehensive hydrate formation predictive tool is necessary. In this work, a transient hydrate simulation tool coupled with a multiphase flow simulator, which predicts the hydrate formation rate and amount to determine hydrate slurry transportability, is applied to assess the hydrate formation risk in an offshore gas condensate subsea tieback under design stage. A simulation model is developed using the geometry, fluid properties and predicted production data from this field. This gas condensate field has an offshore separator that connects to a subsea production line. After separation, gas and liquids are transported by export lines. In this study, the hydrate formation in the production and the liquid export lines was estimated using the transient hydrate simulation tool. Simulation studies were performed to assess the hydrate plugging risk at both steady state and transient operations considering different water cuts. This simulation tool has been demonstrated to be useful in modeling hydrate management during subsea pipeline design and optimization, and can provide guidelines for safe and cost-effective hydrate management in the field.
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利用瞬态水合物模拟工具评估凝析气海底回接中水合物的形成
当前的油价已将海上油气流动保障理念从“避免水合物”转变为“管理水合物”。为了对管道中的水合物形成进行管理,我们不仅需要对水合物形成过程有很好的了解,而且还需要一个全面的水合物形成预测工具。在这项工作中,将瞬态水合物模拟工具与多相流模拟器相结合,预测水合物的形成速率和数量,以确定水合物浆液的可输运性,并应用于海上凝析海底回接设计阶段的水合物形成风险评估。利用该油田的几何形状、流体性质和预测产量数据建立了模拟模型。该凝析气田有一个海上分离器,连接到海底生产线。分离后,气体和液体通过出口管道运输。本研究利用瞬态水合物模拟工具对生产线和液体出口线的水合物形成进行了估计。进行了模拟研究,以评估考虑不同含水率的稳态和瞬态作业时水合物堵塞风险。该模拟工具已被证明在海底管道设计和优化过程中的水合物管理建模中非常有用,并且可以为现场安全和经济有效的水合物管理提供指导。
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