An innovative method for building electricity energy management in smart homes based on electric vehicle energy capacity
No Thumbnail Available
Date
2024
Journal Title
Journal ISSN
Volume Title
Publisher
Frontiers Media SA
Open Access Color
OpenAIRE Downloads
OpenAIRE Views
Abstract
The surging demand for electricity, fueled by environmental concerns, economic considerations, and the integration of distributed energy resources, underscores the need for innovative approaches to smart home energy management. This research introduces a novel optimization algorithm that leverages electric vehicles (EVs) as integral components, addressing the intricate dynamics of household load management. The study’s significance lies in optimizing energy consumption, reducing costs, and enhancing power grid reliability. Three distinct modes of smart home load management are investigated, ranging from no household load management to load outages, with a focus on the time-of-use (ToU) tariff impact, inclining block rate (IBR) pricing, and the combined effect of ToU and IBR on load management outcomes. The algorithm, a multi-objective approach, minimizes the peak demand and optimizes cost factors, resulting in a 7.9% reduction in integrated payment costs. Notably, EVs play a pivotal role in load planning, showcasing a 16.4% reduction in peak loads and a 7.9% decrease in payment expenses. Numerical results affirm the algorithm’s adaptability, even under load interruptions, preventing excessive increases in paid costs. Incorporating dynamic pricing structures like inclining block rates alongside the time of use reveals a 7.9% reduction in payment costs and a 16.4% decrease in peak loads. In conclusion, this research provides a robust optimization framework for smart home energy management, demonstrating economic benefits, peak load reduction potential, and enhanced reliability through strategic EV integration and dynamic pricing. Copyright © 2024 Dodo, Ibrahim, Abuhussain, Baba Girei, Maghrabi and Naibi.
Description
Keywords
electric vehicle, electricity energy, energy management, inclining block rate, smart home, time of use
Turkish CoHE Thesis Center URL
Fields of Science
Citation
0
WoS Q
Q3
Scopus Q
Q3
Source
Frontiers in Energy Research
Volume
12