Journal of Recent Trends in Electrical Power System (e-ISSN: 2584-2404)

This paper acquaints a model with create power from sun based energy for 24 hours for homegrown and Modern use. The conversation depends on Concentrated Sun oriented Power where allegorical dish, liquid salt and thermocouple is utilized for the exchange of sun based energy to the intensity energy and afterward convert it into the electrical energy to store the power in battery. The proposed framework can be an elective answer for PV framework or diesel generator sets for running different family or little Modern machines. The sunrays are focused on liquid salt by utilizing explanatory dish. A thermocouple is connected to this molten salt. The thermocouple utilized here is Peltier plate. The temperature contrast in thermocouple gives us persistent potential distinction which is taken care of to a battery. Further examination to work on the framework and with advancement in higher effective thermocouples we can create an adequate measure of result voltage which would be sufficient to run family and little Modern machines.

Dhameliya, R., Domadiya, K., Miyani, P., Savaliya, H., & Jariwala, P. (2017). Automatic power factor control using arduino uno. International Journal of Advance Engineering and Research Development (IJAERD), 4(4).

Tembhurnikar, G., Chaudhari, A., Wani, N., Gajare, A., & Gajare, P. (2014). A review on Reactive Power Compensation Techniques using FACTS devices. International Journal of Engineering and Management Research (IJEMR), 4(1), 76-80.

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Barsoum, N. (2007, March). Programming of PIC micro-controller for power factor correction. In First Asia International Conference on Modelling & Simulation (AMS'07) (pp. 19-25). IEEE.

Mane, S. R., Kolekar, A. A., Molaj, M. M., Patil, S. V., & Mestri, M. N. (2016). Arduino based power factor correction. International Journal of Electrical, Electronics and Data Communication, 4(4), 4-8.

Garg, R. K., Ray, S., & Gupta, N. (2016, July). Reactive power compensation and power factor improvement using fast active switching technique. In 2016 IEEE 1st international conference on power electronics, intelligent control and energy systems (ICPEICES) (pp. 1-5). IEEE.

Chandra, A., & Agarwal, T. (2014). Capacitor bank designing for power factor improvement. International Journal of Emerging Technology and Advanced Engineering, 4(8), 235-239.