E. C. Portante, B. Craig, Leah E. Talaber, J. Kavicky, S. Folga, S. Cedres
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引用次数: 9
摘要
本文介绍了美国阿贡国家实验室(Argonne National Laboratory)开发的新型仿真与冲击分析工具EPfast的功能、计算逻辑和基本假设。该模型的目的是探讨电力系统在人为或自然干扰下陷入不受控制的孤岛的趋势。该模型生成一份报告,该报告量化了所有受影响变电站的兆瓦减少量,以及形成的岛屿电网的数量、大小和空间位置。该模型是线性的,旨在模拟高后果事件对大型电力系统的影响。本文描述了该模型最近的应用,以检查高强度新马德里地震事件对美国东部互联(USEI)的影响。在美国能源部基础设施安全和能源恢复办公室的资助下,该模型的最终升级和随后的USEI应用成为可能。
EPfast: A model for simulating uncontrolled islanding in large power systems
This paper describes the capabilities, calculation logic, and foundational assumptions of EPfast, a new simulation and impact analysis tool developed by Argonne National Laboratory. The purpose of the model is to explore the tendency of power systems to spiral into uncontrolled islanding triggered by either man-made or natural disturbances. The model generates a report that quantifies the megawatt reductions in all affected substations, as well as the number, size, and spatial location of the formed island grids. The model is linear and is intended to simulate the impacts of high-consequence events on large-scale power systems. The paper describes a recent application of the model to examine the effects of a high-intensity New Madrid seismic event on the U.S. Eastern Interconnection (USEI). The model's final upgrade and subsequent application to the USEI were made possible via funding from U.S. Department of Energy's Office of Infrastructure Security and Energy Restoration.
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