Abstract
With the dramatic development of renewable energy resources all over the world, Vietnam has started to apply them along with the conventional resources to produce the electrical power in recent years. Visually, the aim of this action is to improve the economic as well as the environmental benefits. Therefore, a vast of hybrid systems that combine Wind turbine, Photovoltaic (PV), Diesel generator and battery have been considered with different configurations. According to this topic, there are lots of research trends in the literature. However, we aim to the optimal energy management of this hybrid system. In particular, in this paper, we propose an optimization method to deal with it. The interesting point of the proposed method is the usage of the information of sources, loads, and electricity market as an embedded forecast step to enhance the effectiveness of the actual operation via minimizing the operation cost by scheduling distributed energy resources (DER) while regarding emission reduction in the hybrid system is considered as the objective function. In this optimization problem, the constraints are determined by two terms, namely: the balance of power between the supply and the load demand, and also the limitations of each DER. Thus, to solve this problem, we make use of the dynamic programming (DP) to transform a system into a multi-stage decision procedure with respect to the state of charge (SOC), resulting in the minimum system cost (CS). In order to highlight the pros of the proposed method, we implement the comparison to a rule-based method in the same context. The simulation results are examined in order to evaluate the effectiveness of the developed methodology, which is a so-called global optimization.
Highlights
Nowadays, electricity demand has been increased significantly and massively while the environment is getting to be more and more harmful due to the emission gases from the conventional resources
This section is to illustrate the optimal energy management of the Wind–PV–diesel–Battery energy storage system (BESS) hybrid system. This task is implemented by solving the optimization problem to define the minimum of cost of system, the most suitable plan of the diesel generator and BESS simultaneously
We have proposed the Dynamic Programming method to manage the optimal energy management of the PV–wind–diesel–BESS hybrid system with respect to both economic benefits and its reliability
Summary
Electricity demand has been increased significantly and massively while the environment is getting to be more and more harmful due to the emission gases from the conventional resources. The results revealed that both factors have promising potentials Unlike these topics, we aim to develop the energy management method to improve the economic efficiency and reliability of the overall system for a Wind–PV–Diesel hybrids with battery energy storage (BESS) by considering this problem as an optimization problem. With the purpose to improve the economic efficiency as well as the reliability of the system simultaneously, we consider the energy management as a multi-objective optimization problem. In this part, the objective function is defined by employing the Bellman–Ford algorithm to determine the optimal order for the state of charge (SOC) from the first moment to the final moment.
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