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Optimal Multi-Objective Power Scheduling of a Residential Microgrid Considering Renewable Sources and Demand Response Technique

Mahmoud M. Gamil / Soichirou Ueda / Akito Nakadomari / Keifa Vamba Konneh / Tomonobu Senjyu / Ashraf M. Hemeida / Mohammed Elsayed Lotfy

Microgrid optimization is one of the most promising solutions to power system issues and new city electrification. This paper presents a strategy for optimal power scheduling of a residential microgrid depending on renewable generating sources and hydrogen power. Five scenarios of the microgrid are introduced to show the effect of using biomass energy and a seawater electrolyzer on microgrid cost and CO $_{2}$ emissions. Time of use demand response is applied to reshape the electric load demand and decrease the dependence on grid power. The obtained results from the multi-objective optimization verify that biomass has a significant role in minimizing the cost and CO $_{2}$ emissions; the cost is decreased by 37.9% when comparing scenarios with and without biomass. Besides, the FC integration with seawater electrolyzer and tanks reduces the microgrid emissions by around 40%.

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Optimal Multi-Objective Power Scheduling of a Residential Microgrid Considering Renewable Sources and Demand Response Technique

Mahmoud M. Gamil / Soichirou Ueda / Akito Nakadomari / Keifa Vamba Konneh / Tomonobu Senjyu / Ashraf M. Hemeida / Mohammed Elsayed Lotfy

Microgrid optimization is one of the most promising solutions to power system issues and new city electrification. This paper presents a strategy for optimal power scheduling of a residential microgrid depending on renewable generating sources and hydrogen power. Five scenarios of the microgrid are introduced to show the effect of using biomass energy and a seawater electrolyzer on microgrid cost and CO $_{2}$ emissions. Time of use demand response is applied to reshape the electric load demand and decrease the dependence on grid power. The obtained results from the multi-objective optimization verify that biomass has a significant role in minimizing the cost and CO $_{2}$ emissions; the cost is decreased by 37.9% when comparing scenarios with and without biomass. Besides, the FC integration with seawater electrolyzer and tanks reduces the microgrid emissions by around 40%.

Optimal Multi-Objective Power Scheduling of a Residential Microgrid Considering Renewable Sources and Demand Response Technique

Mahmoud M. Gamil / Soichirou Ueda / Akito Nakadomari / Keifa Vamba Konneh / Tomonobu Senjyu / Ashraf M. Hemeida / Mohammed Elsayed Lotfy

Microgrid optimization is one of the most promising solutions to power system issues and new city electrification. This paper presents a strategy for optimal power scheduling of a residential microgrid depending on renewable generating sources and hydrogen power. Five scenarios of the microgrid are introduced to show the effect of using biomass energy and a seawater electrolyzer on microgrid cost and CO $_{2}$ emissions. Time of use demand response is applied to reshape the electric load demand and decrease the dependence on grid power. The obtained results from the multi-objective optimization verify that biomass has a significant role in minimizing the cost and CO $_{2}$ emissions; the cost is decreased by 37.9% when comparing scenarios with and without biomass. Besides, the FC integration with seawater electrolyzer and tanks reduces the microgrid emissions by around 40%.

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Title:

Optimal Multi-Objective Power Scheduling of a Residential Microgrid Considering Renewable Sources and Demand Response Technique

Contributors:

Mahmoud M. Gamil (author) / Soichirou Ueda (author) / Akito Nakadomari (author) / Keifa Vamba Konneh (author) / Tomonobu Senjyu (author) / Ashraf M. Hemeida (author) / Mohammed Elsayed Lotfy (author)

Published in:

Sustainability, Vol 14, Iss 21, p 13709 (2022)

Publication date:

2022

ISSN:

DOI:

https://doi.org/10.3390/su142113709

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

Unknown

Keywords:

microgrid sizing , time of use , demand response , seawater electrolyzer , biomass , fuel cell , Environmental effects of industries and plants , TD194-195 , Renewable energy sources , TJ807-830 , Environmental sciences , GE1-350

Metadata by DOAJ is licensed under CC BY-SA 1.0

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