Multi-Objective Optimal Scheduling of a Microgrid Using Oppositional Gradient-Based Grey Wolf Optimizer
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https://hdl.handle.net/10037/27679Date
2022-11-29Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Rajagopalan, Arul; Nagarajan, Karthik; Montoya, Oscar Danilo; Dhanasekaran, Seshathiri; Abdul Kareem, Inayathullah; Sendraya Perumal, Angalaeswari; Lakshmaiya, Natrayan; Paramasivam, PrabhuAbstract
Optimal energy management has become a challenging task to accomplish in today’s
advanced energy systems. If energy is managed in the most optimal manner, tremendous societal
benefits can be achieved such as improved economy and less environmental pollution. It is possible
to operate the microgrids under grid-connected, as well as isolated modes. The authors presented a
new optimization algorithm, i.e., Oppositional Gradient-based Grey Wolf Optimizer (OGGWO) in the
current study to elucidate the optimal operation in microgrids that is loaded with sustainable, as well
as unsustainable energy sources. With the integration of non-Renewable Energy Sources (RES) with
microgrids, environmental pollution is reduced. The current study proposes this hybrid algorithm
to avoid stagnation and achieve premature convergence. Having been strategized as a bi-objective
optimization problem, the ultimate aim of this model’s optimal operation is to cut the costs incurred
upon operations and reduce the emission of pollutants in a 24-h scheduling period. In the current
study, the authors considered a Micro Turbine (MT) followed by a Wind Turbine (WT), a battery
unit and a Fuel Cell (FC) as storage devices. The microgrid was assumed under the grid-connected
mode. The authors validated the proposed algorithm upon three different scenarios to establish
the former’s efficiency and efficacy. In addition to these, the optimization results attained from the
proposed technique were also compared with that of the results from techniques implemented earlier.
According to the outcomes, it can be inferred that the presented OGGWO approach outperformed
other methods in terms of cost mitigation and pollution reduction.
Publisher
MDPICitation
Rajagopalan, Nagarajan, Montoya, Dhanasekaran S, Abdul Kareem, Sendraya Perumal A, Lakshmaiya N, Paramasivam P. Multi-Objective Optimal Scheduling of a Microgrid Using Oppositional Gradient-Based Grey Wolf Optimizer. Energies. 2022;15(23)Metadata
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