Stochastic Models in Risk-Based Assessment of Reserve Requirements for a Power System with High Wind Power Generation

2016 Second International Symposium on Stochastic Models in Reliability Engineering, Life Science and Operations Management (SMRLO) Pub Date : 2016-02-15 DOI:10.1109/SMRLO.2016.32

M. Negnevitsky, D. H. Nguyen, M. Piekutowski

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引用次数: 1

Abstract

The increasing role of wind power generation has created new challenges in power system planning and operation. Uncertainty of wind energy may lead to significant load-generation imbalances resulting in large frequency deviations, and hence increase system operation risk. Large wind penetration may also deteriorate the system primary frequency response due to its limited contribution to both system inertia and frequency control under the current practice of determining primary reserve. This paper proposes a risk-based approach to the adequacy assessment of primary frequency response. It can also assist in determining primary reserves requirements for a power system with significant penetration of wind power generation. A simplified dynamic model of frequency taking into account the system inertia and frequency control services is developed for fast evaluation of operational risks due to inadequate frequency response without performing dynamic simulations.

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基于随机模型的大风力发电系统备用需求风险评估

风力发电的作用日益增强，对电力系统的规划和运行提出了新的挑战。风能的不确定性可能导致显著的负荷产生不平衡，从而导致较大的频率偏差，从而增加系统运行风险。在目前确定一次储备的做法下，由于大风侵彻对系统惯性和频率控制的贡献有限，也可能使系统一次频率响应恶化。本文提出了一种基于风险的初级频率响应充分性评估方法。它还可以帮助确定风力发电大量渗透的电力系统的初级储备要求。为了在不进行动态仿真的情况下快速评估由于频率响应不足而导致的运行风险，建立了考虑系统惯性和频率控制业务的简化动态频率模型。

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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2016 Second International Symposium on Stochastic Models in Reliability Engineering, Life Science and Operations Management (SMRLO)

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