Algoritma Sistem Koordinasi Pembangkit Listrik Hibrid PV-Generator 3 Fasa

Agus wahyudi, Antonius Rajagukguk, Iswadi Hasyim Rosma

Abstract


The need for electrical energy is increasing along with population growth and increasing community activities, so it is necessary to add new energy sources to reduce fossil resources. One alternative renewable energy is
solar energy using photovoltaic (PV). However, so that the load can still be supplied optimally, one alternative solution is to use a hybrid generator technique. Hybrid system is the concept of combining two or more energy
sources. One of the hybrid power plants that has the potential to be developed is a combination of PV and generator. This research makes a hybrid PV-generator generating system to serve the maximum load and complement each other's shortcomings and add a battery as an additional generator. This research creates a coordination of generators to interact with each other between generators to serve load patterns in a structured
and simulated manner in MATLAB 2016a. The design of the hybrid power plant is PV with 58 kwp power, 30 kAh battery and 25 kva generator. The results in this study show the performance of each generator when
serving the load. Loads of 10 kw, 20 kw and 30 kw are supplied by PV and batteries. At peak load, the load is supplied by a hybrid PV-generator or battery-generator. From the simulation results show that the generator is
able to overcome any given load with a given coordination system.
Keywords : Photovoltaic (PV), Hybrid, generator, load, Matlab 2016a


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