Techno-economic study of an innovative PV-hydrogen-biomass system for off-grid power supply

Hooman Farzaneh

Techno-economic study of an innovative PV-hydrogen-biomass system for off-grid power supply

Hooman Farzaneh

Kyushu University Platform of Inter/Transdisciplinary Energy Research

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

1 Citation (Scopus)

Abstract

Hybrid Renewable Energy Systems (HRES) can be considered as an alternative energy option to provide off-grid power generation. In this study, the development of an innovative HRES based on the integration of hydrogen generation from biomass gasification, renewable energy power generation, hydrogen generation from water electrolysis, and a fuel cell providing combined heat and power was proposed. The Techno-Economic study of the proposed system was carried out in order to support the annual electricity demand of a selected household in shinchi-machi in Fukushima prefecture. As indicated by results of the model in this study, the total annual electricity generation by the proposed HRES was estimated about 48 MWh with a total annual hydrogen generation of 2.7 ton. The Levelized Cost of Energy of the system, including both electricity and thermal energy, was estimated at about 0.49 $/kWh.

Original language	English
Title of host publication	IET Conference Publications
Publisher	Institution of Engineering and Technology
Edition	CP749
ISBN (Electronic)	9781785618161, 9781785618437, 9781785618468, 9781785618871, 9781785619427, 9781785619694, 9781839530036
ISBN (Print)	9781785617911
Publication status	Published - Jan 1 2018
Event	5th IET International Conference on Clean Energy and Technology, CEAT 2018 - Kuala Lumpur, Malaysia Duration: Sep 5 2018 → Sep 6 2018

Publication series

Name	IET Conference Publications
Number	CP749
Volume	2018

Conference

Conference	5th IET International Conference on Clean Energy and Technology, CEAT 2018
Country	Malaysia
City	Kuala Lumpur
Period	9/5/18 → 9/6/18

All Science Journal Classification (ASJC) codes

Electrical and Electronic Engineering

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Cite this

Farzaneh, H. (2018). Techno-economic study of an innovative PV-hydrogen-biomass system for off-grid power supply. In IET Conference Publications (CP749 ed.). (IET Conference Publications; Vol. 2018, No. CP749). Institution of Engineering and Technology.

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abstract = "Hybrid Renewable Energy Systems (HRES) can be considered as an alternative energy option to provide off-grid power generation. In this study, the development of an innovative HRES based on the integration of hydrogen generation from biomass gasification, renewable energy power generation, hydrogen generation from water electrolysis, and a fuel cell providing combined heat and power was proposed. The Techno-Economic study of the proposed system was carried out in order to support the annual electricity demand of a selected household in shinchi-machi in Fukushima prefecture. As indicated by results of the model in this study, the total annual electricity generation by the proposed HRES was estimated about 48 MWh with a total annual hydrogen generation of 2.7 ton. The Levelized Cost of Energy of the system, including both electricity and thermal energy, was estimated at about 0.49 $/kWh.",

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AB - Hybrid Renewable Energy Systems (HRES) can be considered as an alternative energy option to provide off-grid power generation. In this study, the development of an innovative HRES based on the integration of hydrogen generation from biomass gasification, renewable energy power generation, hydrogen generation from water electrolysis, and a fuel cell providing combined heat and power was proposed. The Techno-Economic study of the proposed system was carried out in order to support the annual electricity demand of a selected household in shinchi-machi in Fukushima prefecture. As indicated by results of the model in this study, the total annual electricity generation by the proposed HRES was estimated about 48 MWh with a total annual hydrogen generation of 2.7 ton. The Levelized Cost of Energy of the system, including both electricity and thermal energy, was estimated at about 0.49 $/kWh.

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