Heat & Harmonics - the Most Significant Concerns in Air-Cooled Medium Voltage Adjustable Speed Drives & What to Do about It?

2019 IEEE Petroleum and Chemical Industry Committee Conference (PCIC) Pub Date : 2019-09-01 DOI:10.1109/PCIC30934.2019.9074510

Manish Verma, D. Phares, R. Lawrence

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引用次数: 1

Abstract

Scholarly publications exist about several aspects of adjustable speed drives. Their application considerations, benefits, specifications and operation are well understood. Medium Voltage (MV) drives have been applied not only to upstream, midstream and downstream industries of the oil & gas value chain, but also in other industries such as pulp & paper, cement, water/wastewater, power generation and test stands. This has been possible by reliable high capacity power semiconductor devices. Heat loss is a major contributor to the life cycle cost of an installation of MV drives. This is not understood initially but becomes significant when assessed over a 25-year life span. Air-cooled drives are specified at large horsepower ratings or in places with high or low ambient temperatures without fully understanding the long-term impact to reliability, safety and running costs. On another note, line-side harmonics is also of concern not only to the power delivery apparatus of an operator’s plant, but also to the utility providers. IEEE 519-1992 which was revised in 2014 is often specified for MV drives, but application and understanding of the standard is inconsistent among industry participants. This paper addresses the foregoing two issues. The manuscript first describes conventional and non-conventional methods for managing heat that the industry has developed over a period and will cover application considerations when specifying, evaluating, procuring and installing those solutions. The final part of the paper reviews the IEEE 519-2014 standard and how it is applied in the context of a MV drive. Further, the paper briefly touches on line-side harmonic mitigation techniques that are employed and how to specify them to best avoid issues. This paper serves as a guideline to the practicing engineer to familiarize themselves with the heat and harmonic issues of MV drives and how to be successful in tackling them.

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热和谐波-风冷中压调速驱动器中最重要的问题&如何解决?

学术出版物存在关于调速驱动器的几个方面。它们的应用注意事项、优点、规格和操作都很容易理解。中压变频器不仅应用于油气价值链的上游、中游和下游行业，还应用于制浆造纸、水泥、水/废水、发电和试验台等其他行业。通过可靠的高容量功率半导体器件，这已经成为可能。热损失是安装中压变频器的生命周期成本的主要贡献者。这在一开始是不被理解的，但在25年的寿命中进行评估就变得很重要了。风冷驱动在大马力额定值下或在高或低环境温度下指定，而不完全了解对可靠性，安全性和运行成本的长期影响。另一方面，线路侧谐波不仅与运营商工厂的电力输送设备有关，也与公用事业供应商有关。2014年修订的IEEE 519-1992通常指定用于中压变频器，但行业参与者对该标准的应用和理解并不一致。本文解决了上述两个问题。该手稿首先描述了行业在一段时间内开发的常规和非常规热管理方法，并将涵盖在指定，评估，采购和安装这些解决方案时的应用考虑因素。论文的最后一部分回顾了IEEE 519-2014标准，以及它如何在中压变频器的背景下应用。此外，本文简要介绍了所采用的线侧谐波缓解技术以及如何指定它们以最好地避免问题。本文旨在为实习工程师熟悉中压变频器的热和谐波问题以及如何成功地解决这些问题提供指导。

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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