Abstract
A suitable energy management scheme and integrating renewable energy resources (RERs) can significantly increase energy efficiency and the stability of future grids operation. This work modeled a household energy management comprising a microgrid (MG) system and demand response programs (DRPs). Residential loads with price-based tariffs are introduced to reduce peak load demands and energy costs. For incorporating the uncertainties in RERs, their stochastic nature is modeled with a probabilistic method. This paper proposes a joint optimization approach for the optimal planning and operation of grid-connected residential, rural MG integrated into renewable energy and electric vehicles (EVs) in view of DRPs. The investigation focuses on energy saving of residential homes under different DRPs and RERs integration. The EVs are integrated into MG by including photovoltaic (PV), wind turbine (WT), fuel cell (FC), and diesel engines (DEs). A multi-objective optimization problem has been formulated to minimize the operating cost, pollutant treatment cost, and carbon emissions cost defined as C1, C2, and C3, respectively. The load demand has been rescheduled because of three DRPs, i.e., critical peak pricing (CPP), real-time electricity pricing (RTEP), and time of use (TOU). Further, the EV load has also been analyzed in autonomous and coordinated charging strategies. Using a judgement matrix, the proposed multi-objective problem is transformed into a single-objective problem. The results of an artificial bee colony (ABC) algorithm are compared with the particle swarm optimization (PSO) algorithm. The simulation analysis was accomplished by employing ABC and PSO in MATLAB. The mathematical model of MG was implemented, and the effects of DRPs based MG were investigated under different numbers of EVs and load data to reduce different costs. To analyze the impact of DRPs, the residential, rural MG is implemented for 50 homes with a peak load of 5 kW each and EV load with 80 EVs and 700 EVs, respectively. The simulation results with different test cases are formulated while analyzing the tradeoff between ABC and PSO algorithms. The simulation analysis shows that multiple DRPs, EVs, and RERs offered a substantial trade-off.
Highlights
A rapid increase in global energy demand requires further distributed energy generation with the existing fossil fuelsbased conventional generation
MG power generation is mostly dependent on intermittent-based renewable energy resources (RERs)
Various benefits can be achieved with the help of optimal MG operations under smart grid (SG) environment, such as improved reliability, higher operation flexibility, peak shaving, lower energy cost, load balancing, auto control operation, protection, integrated EMS operation, matching load-generation capacity, minimum pollution, and improved power quality (PQ) [3]–[5]
Summary
A rapid increase in global energy demand requires further distributed energy generation with the existing fossil fuelsbased conventional generation. Literature studies lack: (1) the consideration of RERs uncertainty and DRPs, (2) grid-connected EVs integrated residential PV-WT-MT-DE based community rural microgrid (MG) by employing single-objective problem using ABC and PSO algorithms [44]–[57]. Rescheduling the load demand based on different tariffs as DRPs and economic dispatch (ED) by considering optimal sizing as DSM. This paper analyzes joint multi-objective optimization problems based on load scheduling and optimal sizing considering demandside management (DSM). The first step involves DSM, and the second step involves optimal sizing, and it has been analyzed which algorithm (ABC or PSO) performs well for the proposed optimization problem is incorporated in this paper. Step: The end product is global best Gbest , personal best Pbest, and its relevant position X
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