ESTIMATION OF REACTIVE POWER EXPORT AND IMPORT CAPABILITY FOR NON-UTILITY GENERATORS

Proceedings of 1995 Industrial and Commercial Power Systems Conference Pub Date : 1995-05-07 DOI:10.1109/ICPS.1995.528569

G. J. Nolan, E. B. Khalafalla, E. H. Arnold, D. Winge, B. Swartley

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引用次数: 3

Abstract

Non-utility generators (NUG's) are typically required by their electric power sales agreement to have the capability to supply power to the purchasing utility near unity power factor. With the advent of large combustion turbine generators, many NUG's are simple or combined cycle facilities with generating capacities in excess of 100 MW. Utilities are recognizing that these large NUG facilities can be significant contributors to the reactive power [megavars (MVArs)] flow needed to support system requirements and transmission level grid voltages. NUG's are now being dispatched for MVAr export and import activities to meet utility requirements. The ability of a NUG to export or import MVArs is highly dependent on the actual transmission intertie voltage level. Unless plant-specific studies are performed, this capacity can be difficult to ascertain for the NUG operating and engineering personnel. This paper presents a method, based on system load-flow studies, for estimating the capacity of a NUG to export or import MVArs at a given transmission intertie voltage level. It also explores other key variables which determine the ability of a NUG to export or import VArs. This methodology can be used to aid operating personnel at existing facilities or as a guide during the design of a new facility.

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非公用事业发电机无功输出和无功输入能力的估计

非公用事业发电机(NUG)通常要求其电力销售协议具有向采购公用事业提供接近单位功率因数的电力的能力。随着大型燃烧涡轮发电机的出现，许多NUG都是发电能力超过100兆瓦的简单或联合循环设施。公用事业公司认识到，这些大型NUG设施可以为支持系统需求和传输级电网电压所需的无功功率(百万千瓦(mvar))流量做出重要贡献。NUG现在被派往MVAr出口和进口活动，以满足公用事业需求。NUG输出或导入mvar的能力高度依赖于实际的传输互连电压水平。除非进行特定工厂的研究，否则对于NUG操作人员和工程人员来说，这种能力很难确定。本文提出了一种基于系统负载流研究的方法，用于估计在给定输电网电压水平下NUG输出或输入mvar的能力。本文还探讨了决定NUG导出或导入var能力的其他关键变量。该方法可用于帮助现有设施的操作人员或作为新设施设计期间的指南。

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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Proceedings of 1995 Industrial and Commercial Power Systems Conference

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