Abstract
Wind power ramp events are typical harmful anomaly events in wind engineering, which bring new threat to the safety operation of power systems. To in-depth understand ramps and mitigate their harms, suitable ramp characteristics are crucial in many studies, e.g., ramp definition, classification, prediction and so on. However, due to ramps’ specificity on event feature, more profound characteristics are needed besides basic ramp morphological characteristics. In this paper, an approach for extracting and selecting ramp characteristics is proposed for ramp study. First, according to ramps’ causation on energy change, wavelet transformation is introduced to analyze ramp categories, and used to extract ramp energy characteristics. Then, heuristic feature selection methods are proposed to select ramp characteristics based on specific ramp application contexts. The objective of feature selection is to remove redundant characteristics, and to improve ramp studies’ performance. Finally, combining basic ramp characteristics and wavelet characteristics, ramp studies on category classification and prediction of appointed characteristics are implemented on industrial data. The computational results validate the usefulness of wavelet characteristics, the feasibility of the proposed approach, and that performance of ramp study could be improved by using ramp characteristics in this paper.
Highlights
The generation of energy from wind is growing across the world, especially in China where largescale and highly-concentrated wind projects prevail (Ouyang et al, 2017a)
According to the outlined problems above, the objective of this paper is to propose an approach to extract and select ramp characteristics for wind power ramp study
The study in this paper focus on extracting and selecting profound ramp characteristics for in-depth ramp researches
Summary
The generation of energy from wind is growing across the world, especially in China where largescale and highly-concentrated wind projects prevail (Ouyang et al, 2017a). Due to wind’s fluctuation and intermittent, serious anomaly challenges threaten the safety and stability of power grid. Wind power ramp events are typical anomaly events bringing one of the greatest threat, which is namely the large and unexpected changes of wind power over a short time period (Wang et al, 2017). In 2008, a downramp event was reported in the State of Texas causing serious economic loss to the grid operated by Electric Reliability Council of Texas (ERCOT) (Francis, 2008). It is significantly important to study ramp events for mitigating their negative impacts
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