提高海上工艺综合体分离能力的实例研究

M. Gupta, J. Sukanandan, V. Singh, A. S. Pawar, B. Deuri
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引用次数: 0

摘要

在ONGC的一个海上综合设施中,观察到液体的携带导致气体压缩机跳闸,导致大量生产损失。已经确定,即使在目前的操作条件下,现有分离器的分离能力也不足以处理目前的生产。根据长期生产情况,预计目前的天然气产量将进一步增加60%。因此,探讨了如何处理现有分选厂目前和预期的产量增加问题。为了实现预期的提高生产率并避免现有分离器的结转问题,研究人员探索了诸如改进进料喷嘴和安装进料装置等方案。更换进料喷嘴是一项繁琐的工作,需要热作业和更长的关闭时间,并且需要按照ASME SEC-VIII的建议对分离器进行完整的完整性测试,压力容器指南随后进行r -冲压。因此,建议对分离器内部进行改造,以提高分离能力,并能适应目前和未来产量的增加。分析表明,尽管分离器的直径和长度足以处理负载,但确定分离器的入口喷嘴不够。因此,考虑到最小压降、保证良好的气体分布、抑制再夹带、减少动量和侵蚀速度比小于1等因素,建议对分离器内部进行改造,以提高分离能力,并能适应当前和未来预期的60%以上的产量增长。研究表明,这种进气装置的安装方式可以进行最少的修改,并且需要最短的停机时间。这一备选办法已得到建议,目前正在实地执行。因此,这项工作将为油气公司提供重大帮助,以最小的修改和最短的停机时间,在现有分离器中适应高于设计的进料量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Case Study on Enhancement of Separation Capacity at an Offshore Process Complex
In one of the offshore complex of ONGC, Carryover of liquid have been observed leading to tripping of gas compressors resulting a loss of significant amount of production. It was established that separation capacity of existing separators even at present operating conditions were not sufficient to process present production. Further an increase of 60% of present gas production is envisaged as per long term production profile. Hence, handling the present and envisaged increased production in the existing separators was explored. To handle the envisaged enhanced production rate and to avoid carryover issue in existing separators, options such as feed nozzles enhancement and installation of inlet device was explored. Changing feed nozzles is a tedious job, require hot job and longer shut down period and requires complete integrity test of separators as recommended by ASME SEC-VIII, pressure vessel guidelines followed by R-stamping. Therefore modifications in separator internal was suggested which will enhance the separation capacity and can accommodate in the present and envisaged increase of future production. The analysis revealed that even though the diameter and length of the separators are adequate to handle the load, it was established that the inlet nozzle of the separators are not adequate. Hence, considering many factors such as minimum pressure drop, ensuring good gas distribution, suppression of re-entrainment, momentum reduction and erosion velocity ratio of less than one, modifications in separator internal was suggested which will enhance the separation capacity and can accommodate the present and future envisaged increase of production of more than 60%. It was established in the study that this options of installation of inlet device can be done with minimum modifications and require minimum shutdown period. This option has been recommended and is under field implementation. Hence this work will provide a significant help to oil and gas personal to accommodate higher than design feed quantities in existing separators with minimum modifications and minimum shutdown period.
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