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Energy Management Strategy with a Hybrid Renewable Energy System for a Standalone House

In the case of standalone houses, ensuring a continuous and regulated power supply from renewable sources is crucial. To address their unpredictable nature, an environmentally conscious hybrid renewable energy system combining photovoltaic panels, a battery, and a Diesel generator is considered. A s...

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Main Authors: Mustata, Laurentiu-Alex, Sorea, Gheorghe-Dan, Helerea, Elena
Format: Conference Proceeding
Language:English
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Sorea, Gheorghe-Dan
Helerea, Elena
description In the case of standalone houses, ensuring a continuous and regulated power supply from renewable sources is crucial. To address their unpredictable nature, an environmentally conscious hybrid renewable energy system combining photovoltaic panels, a battery, and a Diesel generator is considered. A software application simulates the power flow in a standalone house with common AC loads, analysing summer and winter scenarios over 24 hours. The strategy employed provides an optimal energy management by using the Diesel generator only during peak demand when PV is available and to cover loads and maintain battery life when PV is not in operation. The simulation results provide valuable insights for designing such hybrid energy systems and for enhancing system responsiveness to dynamic energy demands.
doi_str_mv 10.1109/ICATE62934.2024.10748699
format conference_proceeding
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subjects Batteries
Costs
Energy management
Generators
Hybrid power systems
hybrid sources
Load flow
modelling
Optimization
Photovoltaic systems
Power system dynamics
Renewable energy sources
simulation
standalone house
title Energy Management Strategy with a Hybrid Renewable Energy System for a Standalone House
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