Research on Collaborative Operation System of Wind Power and Electric Vehicle

Lu Cheng; Rui Ma; Hai Wei Lu; Hai Yang Ma; Xiao Feng Gao

doi:10.4028/www.scientific.net/AMM.268-270.1016

Paper Titles

Design and Analysis of the Structure of the Fan Blade Maintenance Platform
p.997

Design of the Shape of Blade of the Semi-Submersible Ocean Current Power Generation Device Based on Fluent
p.1002

Study on Low-Carbon Catalytic Combustion Furnace of Natural Gas
p.1006

Method and Technique of Grade Recovery and Cascade Utilization (GRUC) Based on Sintering and Cooling Integration
p.1011

Research on Collaborative Operation System of Wind Power and Electric Vehicle
p.1016

Adaptive Vibration Control of Beraingless Permanent Magnet Synchronous Motor
p.1023

Experimental Research of Heat Dissipation of Notebook
p.1027

Based on Mechanical Clamping Device Lever Force Amplifier by Linear Motor
p.1031

Reliability Design and Wear Extent Determination of a Cam Mechanism
p.1034

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 268-270Research on Collaborative Operation System of Wind...

Research on Collaborative Operation System of Wind Power and Electric Vehicle

Abstract:

With the increasing of wind power capacity, the peak regulation has become a bottleneck in wind power consumption. This paper introduces electric vehicle as a distributed energy storage device. Based on the probabilistic model, it puts forward equivalent quantity model of electric vehicle charging. It uses the quantitative relationship to represent power. Hence the collaborative operation with wind power is realized. The simulation result shows that the relationship between electric vehicle’s equivalent number and wind power can be described by this model. It also analyzes the feasibility of wind power consumption by electric vehicle.