A Practical Application of a Sinewave Filter to Resolve ESP Motor Failures

2019 IEEE Petroleum and Chemical Industry Committee Conference (PCIC) Pub Date : 2019-09-01 DOI:10.1109/PCIC30934.2019.9074519

A. Hoevenaars, M. McGraw, C. Burley

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引用次数: 2

Abstract

In an effort to address high failure rates in Electrical Submersible Pumps (ESPs), Oil Field operators have been encouraged to use either 6-Step Drives or PWM Drives equipped with sinewave filters. Although both provide improvement over PWM Drives without sinewave filters, premature failure rates in filters and motors are commonplace resulting in extremely costly repairs and even more costly downtime. Little can be done to improve the performance of the 6-Step topology with respect to voltage waveform distortion but significant improvement can be achieved with PWM topology through the application of a uniquely designed sinewave filter.This paper provides a detailed description of the problems associated with 6-Step and PWM Drive operation in ESP applications. Conventional designs of PWM sinewave filters are reviewed and a new design approach is introduced for PWM sinewave filters that lowers voltage and current distortion and provides nearly complete compensation for the motor’s reactive power while minimizing exposure to resonance. Case Studies on successful retrofits of a 200 HP and an 1100 HP ESP drive are discussed.

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正弦波滤波器在解决ESP电机故障中的实际应用

为了解决电潜泵(esp)的高故障率问题，油田运营商被鼓励使用6步驱动或配备正弦波滤波器的PWM驱动。虽然两者都提供了没有正弦波滤波器的PWM驱动器的改进，但滤波器和电机的过早故障率是常见的，导致极其昂贵的维修和甚至更昂贵的停机时间。在电压波形失真方面，6步拓扑的性能几乎无法改善，但通过应用独特设计的正弦波滤波器，PWM拓扑可以实现显著改善。本文详细介绍了在电潜泵应用中6步驱动和PWM驱动的相关问题。回顾了传统的PWM正弦波滤波器的设计，并介绍了一种新的PWM正弦波滤波器的设计方法，该方法可以降低电压和电流畸变，并在最大限度地减少谐振暴露的同时对电机的无功功率提供几乎完全的补偿。讨论了200 HP和1100 HP ESP驱动器的成功改造案例。

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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2019 IEEE Petroleum and Chemical Industry Committee Conference (PCIC)

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