Cost benefit analysis for wind power penetration

2017 North American Power Symposium (NAPS) Pub Date : 2017-09-01 DOI:10.1109/NAPS.2017.8107316

Saleh S Almasabi, Samer Sulaeman, N. Nguyen, J. Mitra

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引用次数: 4

Abstract

Wind power has become a candidate to replace some or part of the conventional generation to meet the continually increasing electricity demand. Yet, the stochastic nature of the wind speed and the rapid changes of wind turbine output increases the complexity of planning and operation of power systems. In this paper, a cost benefit analysis is developed for measuring the benefits of integrating wind farms with the grid. The analysis considers both the dynamic operations and the reliability of the system. The dynamic operation of the system is considered to be the economic cost and the environmental impact. Both categories are converted to one, using market prices for emission levels. The system reliability is assumed to be a disjoint objective and is evaluated separately, and then the economic impact for the reliability is evaluated using the expected damage cost (EDC). The system analysis for the dynamic operation is performed over the yearly load profile on the IEEE RTS-79 system, with an hourly output of wind. The results for the system reliability and the environmental-economic dispatch are presented, and the performance for different wind penetration at different buses is analyzed and discussed.

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风电渗透的成本效益分析

风力发电已成为替代部分或部分传统发电以满足不断增长的电力需求的备选方案。然而，风速的随机性和风力机输出的快速变化增加了电力系统规划和运行的复杂性。在本文中，开发了一种成本效益分析来衡量风电场与电网整合的效益。分析既考虑了系统的动态运行，又考虑了系统的可靠性。系统的动态运行被认为是经济成本和环境影响。这两个类别被合并为一个，使用排放水平的市场价格。假设系统可靠性是一个不相交的目标，分别对其进行评估，然后用预期损坏成本(EDC)来评估其对可靠性的经济影响。在IEEE RTS-79系统的年负荷剖面上，以每小时的风力输出进行了动态运行的系统分析。给出了系统可靠性和环境经济调度的结果，并对不同母线上不同风侵度的性能进行了分析和讨论。

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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2017 North American Power Symposium (NAPS)

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