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Real-time heterogeneous simulation system for large-scale wind farms
With the integration of large-scale wind farms into the power system, traditional simulation platform based on the central processing unit (CPU) might be hard to satisfy the requirement of real-time
Presentation
A heterogeneous solution framework using both CPUs and GPUs has been used to numerically simulate flow over the NREL Phase VI horizontal-axis wind turbine.
Research on the application of computer science in wind power
This paper seeks to provide an overview of how computer science is utilized in wind power generation, focusing on the integration of computational modeling, simulation, and machine
MICROPROCESSOR CONTROL OF A WIND TURBINE
As the United States starts to reexamine the feasibility of extracting power from the wind, it is found that this ancient art can benefit from the newest of technologies, the microprocessor.
A Tutorial on the Dynamics and Control of Wind Turbines and
A compre-hensive report by the U.S. Department of Energy [3] lays the framework for achieving 20% of the U.S. electrical energy generation from wind by the year 2030. This report covers technological,
Wind Turbine Simulations Using CPU/GPU Heterogeneous
In this study, a heterogeneous solution framework using both CPUs and GPUs was used to numerically simulate flow over the National Renewable Energy Laboratory (NREL) Phase IV horizontal-axis wind
Real-time simulation for detailed wind turbine model based on
The real-time operating system is introduced to guarantee the real-time performance of the turbine model and control system in the CPU. FPGA is used to perform real-time electrical model
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