Switching procedures in multiple source systems and the Business Continuity Management: The flock logic of multi-set systems

2014 IEEE/IAS 50th Industrial & Commercial Power Systems Technical Conference Pub Date : 2014-05-20 DOI:10.1109/ICPS.2014.6839156

G. Parise, E. Hesla, L. Parise, R. Pennacchia

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引用次数: 18

Abstract

The architecture of a mission critical power system has to guarantee service continuity and so has to be designed with multiple structures that allow the simultaneous operation of multiple sources. The architectural measures can be applied on the distribution levels, on total or partial redundancy introducing loop configuration and floating nodes. Opportunely organized, the Business Continuity Management (BCM) will project its program and take actions on the sources. Complete control of the system is necessary for all operating occurrences in an electrical power system, control based on a full understanding of system performance during such operations, particularly when they are complex. Complexity requires that the “safe sets” of operating procedures have to be identified out of all the probabilistic possibilities, selected and authorized adopting the Parise program. The paper deals with a sample case of a system with multiple sources applying the micro approach of the “flock” logic.

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多源系统的切换过程与业务连续性管理:多集系统的群逻辑

关键任务电力系统的体系结构必须保证服务的连续性，因此必须设计成允许多个电源同时运行的多个结构。架构措施可以应用于分布级别，在引入环路配置和浮动节点的全部或部分冗余上。在适当的组织下，业务连续性管理(BCM)将规划其计划并对资源采取行动。对电力系统中的所有运行事件进行系统的完全控制是必要的，在充分了解系统运行过程中的性能的基础上进行控制，特别是在复杂运行时。复杂性要求必须从所有可能性中确定操作程序的“安全集”，选择并授权采用巴黎计划。本文应用“群”逻辑的微观方法，讨论了一个多源系统的实例。

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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2014 IEEE/IAS 50th Industrial & Commercial Power Systems Technical Conference

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