Publication: Hybrid Energy Storage Management in a Renewable Energy-Based Residential Nanogrid
Date
2024
Authors
Dahiru A.T.
Tan C.W.
Lau K.Y.
Toh C.L.
Ayop R.
Ibrahim O.
Journal Title
Journal ISSN
Volume Title
Publisher
Institute of Electrical and Electronics Engineers Inc.
Abstract
Renewable energy resource dynamics significantly contribute to renewable energy system complexities in addition to reliability issues. Energy storage systems such as batteries are used for supply reliability in renewable energy system designs such as residential nanogrids. Factors considered in battery energy storage options in renewable energy systems include the low cost of acquisition, large-scale commercial deployment and high energy storage densities. Despite the competitive advantages of the battery systems, other energy storage facilities have advantages such as electric vehicles with significant time spent parking and hydrogen fuel cells with considerably long periods of retaining energy storage. This paper considered other technoeconomic advantages in defining a hybrid energy storage management for battery, electric vehicles and hydrogen fuel cells configured in a combined and substituted storage of a residential nanogrid. Constraints of uncertain renewable energy generation and customer demands were used for the nanogrid's optimal capacity with each of the storage configurations analyzed based on charging and discharging conditions. The objectives were to strategize energy tradeoffs between the nanogrid and the main grid for energy cost reduction and improved energy utilization. The results indicate the ranges of hourly-average available energy for tradeoffs in the main grid-interactive residential nanogrid such as 24-115 kW in a battery system, 1975 kW in an electric vehicle and 545 kW in hydrogen fuel cell from a substituted configuration and 110-250 kW from a combined storage configuration. The uncertain renewable energy generation and customer demands were utilized in suggesting a dynamic energy pricing for future study considerations. ?2024 IEEE.
Description
Keywords
Battery management systems , Battery storage , Cost reduction , Hydrogen storage , Vehicle-to-grid , Battery systems , Customer demands , Energy , Energy systems , Energy tradeoff , Hybrid energy storage , Hydrogen fuel cells , Nanogrids , Renewable energies , Renewable energy generation