采用永磁电机,提高电潜泵效率和平均无故障时间

IF 2.6 Q3 ENERGY & FUELS Upstream Oil and Gas Technology Pub Date : 2022-09-01 DOI:10.1016/j.upstre.2022.100074
Sherif Fakher, Abdelaziz Khlaifat, Hashim Nameer
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引用次数: 3

摘要

电潜泵(ESP)是最常用的人工举升方法之一,以提高石油采收率。传统的esp使用异步三相感应电动机运行。虽然这种类型的电机已被证明可以有效地为ESP提供动力,但它有几个缺点,特别是在恶劣的井下条件下容易发生故障。为了延长ESP的平均故障间隔时间,并以更低的能量需求获得更高的输出,本研究将传统的异步三相感应电机替换为同步二极至四极永磁电机(PMM)。在不同的管柱设计和作业条件下,PMMs已经在全球多个领域得到了应用。根据井眼性质(包括深度、温度和压力)的不同,将PMMs与ESP结合使用的优势有很大差异;储层岩石性质,包括松散地层;储层流体性质包括蜡、沥青质、二氧化碳、硫化氢和高总溶解盐的存在。由于带有ESP的PMM在不同的储层和地层中性能不同,因此根据上述特性制定ESP-PMM的应用指南非常重要。因此,该研究根据井筒、地层岩石和储层流体性质,为PMM与ESP的应用提供了合适的筛选标准。筛选标准是基于全球10多个不同国家的PMM与ESP实际现场实施的综合数据库构建的。
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Improving electric submersible pumps efficiency and mean time between failure using permanent magnet motor

Electrical submersible pumps (ESP) are one of the most utilized artificial lift methods to increase oil recovery. Conventional ESPs operate using an asynchronous three phase induction motor. Although this type of motor has proven to be effective in powering the ESP, it has several disadvantages and is prone to failure especially in severe downhole conditions. This research investigates the replacement of the conventional asynchronous three phase induction motor with a synchronous two-to-four pole permanent magnetic motor (PMM) for a prolonged ESP mean time between failure and a higher output with lower energy requirements. PMMs have been applied in multiple fields worldwide when using ESP with different string designs and operating conditions. The advantages of using PMMs with ESP have varied significantly depending on the wellbore properties including depth, temperature, and pressure; reservoir rock properties including unconsolidated formations; and reservoir fluid properties including the presence of wax, asphaltene, carbon dioxide, hydrogen sulfide, and high total dissolved salts. Since the performance of the PMM with ESP varies from one reservoir and formation to another, it is important to set a guideline to the application of ESP-PMM based on the aforementioned properties. This research therefore provides proper screening criteria for the application of PMM with ESP based on wellbore, formation rock, and reservoir fluid properties. The screening criteria are constructed based on a comprehensive database of real field implementations of PMM with ESP in more than 10 different countries worldwide.

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