HIGHLIGHTS

Smart allocation of loads in residence generates savings on the energy bill.

The optimized management of distributed energy resources can reduce the energy bill.

Wind generation can be inviable in some specific areas.

Optimal management of loads impacts economic viability by reducing a residential microgrid payback time.

Abstract

The electrical system is becoming more robust with the insertion of distributed energy resources (DERs) and the need for energy autonomy by consumers, given that the current scenario is a growth in demand for electric energy. This paper aims to apply a computational model capable of determining the optimal hourly allocation of controllable loads in residence, as well as studying the optimal dispatch of residential microgrids considering management on the demand side. In addition, this paper presents an economic feasibility analysis of residential microgrids considering distributed generation from wind and solar sources, distributed storage, electric vehicles, and residential controllable loads. Thus, it was possible to conclude that in residence, the insertion of distributed energy generation and storage elements can present a significant reduction in electric energy costs, which can be even greater if these elements are associated with optimized controllable load management.

Keyword:
distributed generation; residential microgrids; management on the demand side; optimal dispatch; electric vehicles