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Teadadi, Z., Changiziyan, H. (2014). Fuel Cell Voltage Control for Load Variations Using Neural Networks. Journal of Artificial Intelligence in Electrical Engineering, 3(10), 20-23.
Zolekh Teadadi; Hassan Changiziyan. "Fuel Cell Voltage Control for Load Variations Using Neural Networks". Journal of Artificial Intelligence in Electrical Engineering, 3, 10, 2014, 20-23.
Teadadi, Z., Changiziyan, H. (2014). 'Fuel Cell Voltage Control for Load Variations Using Neural Networks', Journal of Artificial Intelligence in Electrical Engineering, 3(10), pp. 20-23.
Teadadi, Z., Changiziyan, H. Fuel Cell Voltage Control for Load Variations Using Neural Networks. Journal of Artificial Intelligence in Electrical Engineering, 2014; 3(10): 20-23.

Fuel Cell Voltage Control for Load Variations Using Neural Networks

Article 4, Volume 3, Issue 10, Summer 2014, Page 20-23  XML PDF (362.62 K)
Authors
Zolekh Teadadi; Hassan Changiziyan
Abstract
In the near future the use of distributed generation systems will play a big role in the production of
electrical energy. One of the most common types of DG technologies , fuel cells , which can be connected
to the national grid by power electronic converters or work alone Studies the dynamic behavior and
stability of the power grid is of crucial importance. These studies need to know the exact model of dynamic
elements. In this paper, a new method based on a neural network algorithm for controlling the fuel cell
voltage is provided. The effects of load change the output voltage characteristic of the fuel cell unit is
checked Simulations in MATLAB / SIMULINK. The results show that the prosecution is conducted in an
appropriate manner Voltage Stabilization time.
Keywords
fuel cell; Dynamic Behavior; Neural networks; hydrogen; Neural network controller
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