Techno-economic analysis of a heat and power combination system based on hybrid photovoltaic-fuel cell systems using hydrogen as an energy vector

A techno-economic assessment is conducted for a hybrid combined generation system based on renewable storage technologies such as those offered by fuel cells and using hydrogen as a fuel, which is considered to be a sustainable energy vector. The proposed system consists of three subsystems: a photo...

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Bibliographic Details
Published in:Energy (Oxford) 2021-06, Vol.224, p.120110, Article 120110
Main Authors: Peláez-Peláez, Sofía, Colmenar-Santos, Antonio, Pérez-Molina, Clara, Rosales, Ana-Esther, Rosales-Asensio, Enrique
Format: Article
Language:English
Subjects:
CHP
Economic analysis
Electrolytic cells
Energy resources
Energy sources
Fuel cell
Fuel cells
Fuel technology
Heat
Heat recovery
HOMER
Hybrid PV-FC System
Hybrid systems
Hydrogen
Hydrogen-based energy
Optimization
Photovoltaics
Renewable energy
Renewable systems
Solar energy
Steam
Subsystems
Sustainability
Thermal analysis
Thermal energy
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Summary:A techno-economic assessment is conducted for a hybrid combined generation system based on renewable storage technologies such as those offered by fuel cells and using hydrogen as a fuel, which is considered to be a sustainable energy vector. The proposed system consists of three subsystems: a photovoltaic system, which generates electrical energy through solar energy; the system for the generation, consumption and storage of hydrogen, where an electrolyzer is available to obtain hydrogen from water; the fuel cell, which will generate electrical and heat energy and a hydrogen tank to store the hydrogen; and a thermal system, consisting of a Heat Recovery Steam System and an absorption chiller where the thermal energy from the heat cell will be used for the thermal load. The electrical energy generated by the fuel cell serves as a support for the solar energy when, for whatever reason, it cannot meet the demand. The economic assessment, performed using the Hybrid Optimization of Multiple Energy Resources (HOMER) software, shows that the net present cost of the optimized system is $1,006,293 and the cost of energy $0.8399/kWh. The research here presented proved that, although this system is not economically viable at present, it is technically possible. [Display omitted] •It proposed a heat and power combination system for a stand-alone application.•Hybridation based on renewable energy sources might be a solution.•Hydrogen as energetic vector is considered.•HOMER is used to calculate the optimum performance of the system.
ISSN:0360-5442
1873-6785
DOI:10.1016/j.energy.2021.120110