Título Impedance Source Interlinking Converter for Microbial Electrosynthesis Energy Storage Applications
Autores Shahparasti, Mahdi , Rocabert, Joan , Santiago Munoz, Raul , Luna, Alvaro , RODRÍGUEZ CORTÉS, PEDRO
Publicación externa No
Medio International Conference On Renewable Energy Research And Applications
Alcance Proceedings Paper
Naturaleza Científica
Fecha de publicacion 01/01/2018
ISI 000457681100220
Abstract In this paper, a new type of single-stage interlinking converters for Microbial Electrosynthesis (MES) energy storage applications connected to the three-phase grid is presented, in which impedance source network (ZSN) is employed to reduce cost and volume, and meanwhile improve the efficiency. Impedance source converter (ISC) with buck-boost characteristic is able to feed MES with a wide range of voltages in DC side, also, converter grid distortion in AC side is reduced because there is no need to dead time for switching. Different ZSNs are studied and discussed for MES energy application. The applicable ones are selected and a comprehensive comparison is presented. Also, the proposed efficient control for ISC consists of two parts, first ZSN capacitor control plus reactive power control are done by controlling modulation index, and second the objective of tracking active power reference can be achieved by means of controlling shoot through duty cycle. Simulation results are presented to certify the comparison between ZSNs and to verify the merit of the proposed control scheme.
Palabras clave Interlinking converter; Microbial Electrosynthesis; impedance source network; Power converter
Miembros de la Universidad Loyola

Change your preferences Gestionar cookies