Abstract
Smart grid technology has given users the ability to regulate their home energy use more efficiently and effectively. Home Energy Management (HEM) is a difficult undertaking in this regard, as it necessitates the optimal scheduling of smart appliances to reduce energy usage. In this research, we introduce a metaheuristic-based HEM system which incorporates Earth Worm Algorithm (EWA) and Harmony Search Algorithms (HSA). In addition, a hybridization based on the EWA and HSA operators is used to optimize energy consumption in terms of electricity cost and Peak-to-Average Ratio (PAR) reduction. Hybridization has been demonstrated to be beneficial in achieving many objectives at the same time. Extensive simulations in MATLAB were used to test the performance of the proposed hybrid technique. The simulations were run for multiple homes with multiple appliances, which were categorized according to the usage and nature of the appliance, taking advantage of appliance scheduling in terms of the time-varying retail pricing enabled by the smart grid two-way communication infrastructure algorithms EWA and HSA, along with a Real-Time Price scheme. These techniques helped us to find the best usage pattern for energy consumption to reduce electricity costs. These metaheuristic techniques efficiently reduced and shifted the load from peak hours to off-peak hours and reduced electricity costs. In comparison to HSA, the simulation results suggest that EWA performed better in terms of cost reduction. In comparison to EWA and HSA, HSA was more efficient in terms of PAR. However, the proposed hybrid approach EHSA gave the maximum reduction in cost which was 2.668%, 2.247%, and 2.535% in the case of 10, 30, and 50 homes, respectively, as compared to EWA and HSA.
Highlights
In the coming decades, electrical power control grids, confronted with decentralization, liberalization of energy, and increasing requests for high-quality and reliable electricity, will come under stress in trying to provide energy according to these needs [1]
We considered 5 min Operational Time Interval (OTI), 30 min OTI, and 60 min OTI across eight appliances, and the results were evaluated on the bases of cost in PKR, Peak-to-Average Ratio (PAR), energy consumption or load in kWh, and user comfort in terms of waiting time, which was measured using the units of minutes or hours
The proposed scheme gave the maximum reduction in cost, which was 2.668%, 2.247%, and 2.535% in the case of single, 10, 30, and 50 homes, respectively, as compared to Earth Worm Algorithm (EWA) and Harmony Search Algorithms (HSA)
Summary
Electrical power control grids, confronted with decentralization, liberalization of energy, and increasing requests for high-quality and reliable electricity, will come under stress in trying to provide energy according to these needs [1]. Energy management in SGs focuses on reducing Peak-to-Average Ratio (PAR), minimization of electricity cost, minimization of power consumption, and maximization of user comfort. SGs are designed to improve the reliability of the electrical power supply and reduce overall energy consumption. Using this information, Demand-Side Management (DSM) strategies are applied to optimize the usage of electricity and maintain a balance between demand and supply, which results in reduced electricity costs. Demand-Side Management (DSM) strategies are applied to optimize the usage of electricity and maintain a balance between demand and supply, which results in reduced electricity costs These DSM strategies help users to manage the load during peak hours [2]
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