Design and implementation of home energy management system using vehicle to home (H2V) approach

In recent years, electrical appliances have played a significant role in the energy consumption of the residential sector. Despite providing positive impacts on the quality of life, some devices suffer from various defects such as substantial environmental concerns and high-energy bills. As a relatively modern residential power tool, a homeconnected Green Electric Vehicle (GEV) can discharge energy and supply power to the Home. This paper proposes a combined home Energy management system including Vehicle -To- Home (V2H) technology (or Home Centralized Photovoltaic-HCPV)). The proposed approach seeks to control home energy demand by scheduling optimal automation appliances. Without additional grid power, the proposed HCPV design will cover household electricity demand in sunny and cloudy weather. In contrast, the combination of PV and electricity transmitted by V2H is sufficient to meet household load demand by cloudy weather. In this vein, a scheduling Home Energy Management System is designed and discussed with various constraints to perform correct system operations and satisfy load demand. The proposed algorithm attempts to characterize and perceive source circumstances utilizing energy demand. The obtained results demonstrate that H2V operating technology is can effectively be reducing energy demand under solar-load volatility.

Automated summary

This study proposes a method that combines home energy management systems and vehicle-to-home technology to control household energy demand by scheduling household appliances. The results demonstrate that this technology can effectively reduce energy demand under solar-load volatility.