Peak-Load Regulating Adequacy Evaluation in Wind Power Accessed System Considering the Correlation of Wind Farms

Yi Long Li; Da Hai You; Ke Wang; Ke Tian; Kai Pan

doi:10.4028/www.scientific.net/AMR.724-725.522

Paper Titles

Study on Different Impacts on the Reliability of Grid Connecting with the Offshore and Onshore Wind Farms
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The Dynamic Interactional Model of SVC and DFIG to Maintain Grid Voltage
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The Wind Power Industry in China: Status and Issues
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Vibration Analysis on the Megawatt-Class Wind Turbine Based on the Rigid-Flexible Coupling Model
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Peak-Load Regulating Adequacy Evaluation in Wind Power Accessed System Considering the Correlation of Wind Farms
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A Study on Water Pumping by Using a Small Multi-Blades Windmill for Used in a Remote Area
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China Wind Power Development Status and Trends
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Control Strategy of Wind Turbine Power Limitation under High Winds
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Coordinated Control of Large Scale Offshore Wind Farms Integrating into VSC-HVDC System
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 724-725Peak-Load Regulating Adequacy Evaluation in Wind...

Peak-Load Regulating Adequacy Evaluation in Wind Power Accessed System Considering the Correlation of Wind Farms

Abstract:

There is a certain degree of correlation between the outputs of different wind farms because of their geographic distribution in power grid. And the complementary effect can alleviate the adverse effects of peak-load regulation caused by the large-scale wind power integration. In this paper, Nataf transformation was used to establish wind speed samples of correlative wind farms to get correlative wind power. Based on this, the peak-load regulating adequacy was evaluated using Monte-Carlo method on IEEE-RTS system with wind farms. The result presents the quantitative analysis of the impact of correlative wind farms on peak-load regulating adequacy. And it improves the original peak-load regulating adequacy evaluation based on Monte-Carlo method, which has the relatively conservative results.

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Periodical:

Advanced Materials Research (Volumes 724-725)

Pages:

522-526

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.724-725.522

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Online since:

August 2013

Authors:

Yi Long Li, Da Hai You, Ke Wang, Ke Tian, Kai Pan

Keywords:

Correlation, Nataf Transformation, Peak-Load Regulation, Power System, Wind Farm

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