ARTÍCULO

Autor(es)

A.U. Chavez-Ram?rez, V. Vallejo-Becerra, J.C. Cruz, R. Ornelas, G. Orozco, R. Munoz-Guerrero, L.G. Arriaga,

Registrado por
Año

2013

Tipo de artículo

Revistas indexadas

Título de artículo

Ahybridpower plant (SolareWindeHydrogen)model based in artificial intelligence for a remote-housing application in Mexico

Volúmen

38

Número de registro

1520-5851

Campo

FISICA

Disciplina

FISICOQUIMICA

Subdisciplina

TEORIA DE PILAS DE COMBUSTIBLE

Resumen

World fossil fuel reserve is expected to be exhausted in coming few decades. Therefore, the decentralization of energy production requires the design and integration of different energy sources and conversion technologies to meet the power demand for single remote housing applications in a sustainable way under various weather conditions. This work focuses on the integration of photovoltaic (PV) system, micro-wind turbine (WT), Polymeric Exchange Membrane Fuel Cell (PEM-FC) stack and PEM water electrolyzer (PEM-WE), for a sustained power generation system (2.5 kW). The main contribution of this work is the hybridization of alternate energy sources with the hydrogen conversion systems using mid-term and short-term storage models based in artificial intelligence techniques built from experimental data (measurements obtained from the site of interest), this models allow to obtain better accuracy in performance prediction (PVMSE ¼ 8.4%, PEM-FCMSE ¼ 2.4%, PEM-WEMSE ¼ 1.96%, GSRMSE ¼ 7.9%, WTMSE ¼ 14%) with a practical design and dynamic under intelligent control strategies to build an autonomous system. Copyright ª 2012, Hydrogen Energy Publications, LLC. Published by Elsevier Ltd. All rights

URL (DOI, ORCID, HANDLE, enlace)
Fuente

Sistema Estatal de Información y Documentación Científica y Tecnológica

Número de Visitas

12

SÍGUENOS EN NUESTRAS REDES SOCIALES