Sub-Power Plants Injection to Power Grid Based on Wind and Solar Energy Farms

A.N. Afandi, Irham Fadlika, Langlang Gumilar, Aji P. Wibawa, Aripriharta, Syaad Patmantara, Ilham Aez, Eddy Sutadji, Tri Kuncoro, Marji, Yunis Sulistyorini, Goro Fujita

Abstract

The article describes a method of energy injection based on a random fluctuated commitment incorporated with Renewable Energy Sources (RES) in the power system, which is optimized using Thunderstorm Algorithm (TA) where Takagi Method (TM) is adopted for a hybrid power flow model. The RES has become one of the keys to the sustainable potential energy under environmental penetration as determining in these works to reach an operating efficiency on a power flow study. The studies are subjected to evaluate the grid performances under solar and wind energy penetration in these works. The results indicate that RES affects the efficiency of the system. TM can be applied to the hybrid structure, while TA can search for the generated power combination. TA also has opportunities for the optimum power portion to be carried out as similar as TM is helpful to the power flow. The optimal power production feeds the load demand in 1,045.1 MVA, 648.9 MW, and 361,9 MVar, where the optimal power balance covers all possibility portions for the power producers. Moreover, the five scenarios covered conventional generators and wind turbine generators, whereas local loads consume the photovoltaic power production by delivering to the load centers.

 

 

Keywords: Grid Performance, Power System, Renewable Energy, Solar Power, Windfarm.

 

 


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