电力系统控制的未来趋势

IEEE Computer Applications in Power Pub Date : 2002-08-07 DOI:10.1109/MCAP.2002.1018819

B. Fardanesh

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引用次数: 78

摘要

为了争取时间进行中央协调所需的联机计算，并达到最优操作的更广泛的区域目标，人们不得不求助于分解，因此，多层次的控制方案。本文在若干假设的基础上展望了电力系统运行和控制的未来状态，并对该领域未来25年的发展方向进行了分析。讨论了与电力系统完全协调、高带宽和鲁棒控制技术发展和要求有关的问题，并提出了一些方法。为了实现这一最终目标，引入了全系统自动电压控制(SAVC)、全系统自动功率控制(SAPC)和集成的全系统自动控制(SAC)概念，以协调实功率和无功功率的注入(并联)和路由(串联)控制器。

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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Future trends in power system control

To buy time for online computations needed for central coordination and to attain wider-area objectives for optimum operation, one has had to resort to decomposition and, therefore, multilevel hierarchical control schemes. This article looks into the future state of power system operations and control based on a number of assumptions and provides an analysis of the direction that this area might take over the next 25 years. Issues related to development of techniques and requirements for fully coordinated, high-bandwidth, and robust controls for power systems are discussed, and some methodologies are suggested. Proceeding toward this ultimate goal, system-wide automatic voltage control (SAVC), system-wide automatic power control (SAPC), and the integrated system-wide automatic control (SAC) concepts are introduced for coordination of injection (shunt) and routing (series) controllers for both real and reactive power.

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IEEE Computer Applications in Power

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