Study on Automatic Active Power Control System of Wind Farms

Tao Zhan; Jian Xin Sun; Hua Pu Chen

doi:10.4028/www.scientific.net/AMR.860-863.389

Paper Titles

A Hybrid Short-Term Wind Speed Forecasting Model Based on Wavelet Decomposition and Extreme Learning Machine
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Analysis on Low-Carbon Comprehensive Benefit of Wind Power
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Analysis on the Policies of Wind Power Generation Industry in China - In the Perspective of Externality Theory
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Research on Preventive Maintenance Cycle Decision of Wind Turbine
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Study on Automatic Active Power Control System of Wind Farms
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The Power of Wind Turbine Generators Prediction Model Based on Time Series
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Security and Economy Analysis of Power Grid Considering the Uncertainty of Demand Side and Generation Side
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Regional Wind Power Forecasting Based on Cloud Model and Wind Rate Vector
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Considering Wind Power Abortively Based on Petri Net Research on Optimization of Hydropower
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 860-863Study on Automatic Active Power Control System of...

Study on Automatic Active Power Control System of Wind Farms

Abstract:

Based on a "wind power remote monitoring system" project, this paper focus on the modeling and simulation of the wind power variant pitch control system, and also the wind generator active power control OPC CLIENT interface programming. Using the VC++ language and MFC, OPC CLIENT interface was designed for the start-stop control of fan and the active power control of wind farms, which enables the wind farm to accurate and rapid response of the wind power grid load instruction of automatic generation control (AGC). Further, based on the MATLAB/SIMULINK platform, we analyzed the variable pitch control system of the variable pitch wind turbine by modeling and simulation with the Denmark's VESTAS V80-2000 (2MV).

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Periodical:

Advanced Materials Research (Volumes 860-863)

Pages:

389-393

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.860-863.389

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Online since:

December 2013

Authors:

Tao Zhan, Jian Xin Sun, Hua Pu Chen*

Keywords:

Active Power Control, MATLAB Simulation, OPC, Wind-Generated Electricity

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* - Corresponding Author

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