Optimal MPPT Control using Boost Converter for Power Management in PV- Diesel Remote Area

Maximum power point tracking following (MPPT) is by and large being utilized in sunlight based photovoltaic (PV) control age frameworks to augment sun-based vitality extraction. In this paper, it is proposed to work the solar-PV framework at the imperfect MPPT to oversee control balance in a remote area control supply (RAPS) framework. This is performed dependent on three diverse working modes one is Frequency control mode, second is Active power control mode and the third one is MPPT control mode. The working modes are chosen dependent on the heap level, and the working method of the diesel generator (for example synchronous condenser mode or generator mode) This power the executive's methodology adjusts the age and load request that requires progress between the three working modes without utilizing the fake load. The proposed strategy is capable of extending the diesel generator lifetime and improves the operating efficiency of the diesel generator. Re-enactment thinks about are done to approve the adequacy of the imperfect MPPT control methodology in a PV-Diesel RAPS framework and have demonstrated that the proposed technique can flawlessly keep up the power balance in the RAPS framework while keeping up the voltage and recurrence inside stipulated cut-off points. Substantial cost savings can also be achieved in the long run due to the lifetime extension and efficiency improvement of the diesel generator. Citation: Sikander Hans, Ranjan Walia. "Optimal MPPT Control using Boost Converter for Power Management in PV- Diesel Remote Area ." Global Research and Development Journal For Engineering 4.5 (2019): 24 - 31.