 This study examined a smart microgrid system consisting of PV panels and a battery energy storage system, along with a load shifting algorithm to manage the load appliances. The algorithm utilized minimum price incentives to optimize the allocation of load appliances, taking into account waiting times and minimum tariffs. It also prioritized powering the appliances from the microgrid first, followed by the main grid. The system included two non-shiftable and three shiftable loads, which could be transferred to periods with lower prices if necessary. Additionally, the energy internet concept was used to monitor energy usage and provide customer awareness. The results showed that the system saved energy costs by at least 50% in six different cases. This article was authored by Ali M. Jasm, Basil H. Jasm, Sohail Mosini, and others.