Abstract
Distributed generators using environmentally friendly energy sources such as wind, small water and solar energy have become an important part of the future smart grid/micro grid concept. Design of an autonomous photovoltaic system to study the reaction of solar modules to variable irradiation conditions and their effect on loads. The autonomous system must include a battery storage system to handle non-linear load responses on the AC side. And improve the output power of the photovoltaic system using the MPPT algorithm specially designed to drive linear and non-linear loads on stand-alone systems. And causing the system to respond to varying levels of radiation in the environment and achieve an uninterrupted regulated output of the system. The system examined the behavior of linear and non-linear loads with constant irradiation of 1000 wb / m2 and then modified it to a value between 1000 wb / m2 and 200 wb/m2. The harmonic content in the line voltage increased to 3.34% with a non-linear load by 0.54% with a linear load.
Highlights
Distributed generators (DGs) using environmentally friendly energy sources such as wind, small hydro and solar power have become an important part of the future smart grid / micro grid concept
The development of power electronics technology plays a key role in the integration of DG units which transform the vertical energy system into a horizontal system
Current synchronization and regulation play an important role in meeting standards for connecting DG units to the public electricity grid
Summary
Distributed generators (DGs) using environmentally friendly energy sources such as wind, small hydro and solar power have become an important part of the future smart grid / micro grid concept These energy sources meet both the growing demand for electricity and environmental regulations. Active government measures have been taken to encourage the need to use solar energy, which is abundant in nature, and to install autonomous photovoltaic technology (photovoltaic roof) to meet increasing load demands and reduce electricity bills. It motivates the use of green electricity to generate electricity. The control strategies applied to the interconnection of the DG units are very important
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