基于可再生能源的虚拟电厂频率自动恢复储备短期预测

2017 IEEE PES Innovative Smart Grid Technologies Conference Europe (ISGT-Europe) Pub Date : 2017-09-26 DOI:10.1109/ISGTEurope.2017.8260311

S. Camal, A. Michiorri, G. Kariniotakis, A. Liebelt

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引用次数: 6

摘要

本文提出了一种新的可再生能源发电厂辅助服务预测方法的初步研究结果。分布式变量发电机的日益普及对电网的可靠性提出了挑战。风能和光伏电站在技术上能够提供辅助服务，但它们的随机行为目前阻碍了它们融入备用机制。开发了一种方法来预测风能光伏聚集体可以提供的灵活性。二元核密度估计器预测了提供储备的概率。该方法在一个案例研究中进行了测试，该案例研究预测了一天前的自动频率恢复储备(aFRR)容量。研究发现，风电光伏骨料可将其预测产量的有限份额用于aFRR。通过将提供的产能与实测产量进行比较，评估储备产能不足的频率。

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Short-term forecast of automatic frequency restoration reserve from a renewable energy based virtual power plant

This paper presents the initial findings on a new forecast approach for ancillary services delivered by aggregated renewable power plants. The increasing penetration of distributed variable generators challenges grid reliability. Wind and photovoltaic power plants are technically able to provide ancillary services, but their stochastic behavior currently impedes their integration into reserve mechanisms. A methodology is developed to forecast the flexibility that a wind-photovoltaic aggregate can provide. A bivariate Kernel Density Estimator forecasts the probability to provide reserve. The methodology is tested on a case study where volumes of automatic Frequency Restoration Reserve (aFRR) are forecasted on a day-ahead horizon. It is found that the wind-photovoltaic aggregate can dedicate a limited share of its forecast production to aFRR. The frequency of insufficient reserve capacity is assessed, by comparing the capacities offered with the measured production.

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2017 IEEE PES Innovative Smart Grid Technologies Conference Europe (ISGT-Europe)

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