IOT technology, now a day performs very crucial role in industrial aspects related to safety, cost, production and maintains. The cost of renewable energy equipment is much lower, and large-scale industries are encouraged to set up solar photovoltaic systems and maintainers objects that are very useful for high power consumption. This solar photovoltaic system requires a better automation of the equipments, controlling, monitoring plants using remotely with different types of sensors that are interfaced with the system equipments and then have to identify the problems related to inaccessible locations in the industry. Using IOT technology for controlling and generating solar photovoltaic power can have a significant impact on the performance, monitoring and control of the plant using various wireless communication technology methods and then eliminating interrupting problems in a very short time. In this paper, we have implemented a solar power generation and tracking system with IOT sensors and produced continuous power.
Solar Energy (SE) is the primary energy source and that is freely available in all the regions in the world. The isolated and remote areas can electrify using SE and it is pollution-free for electric power generation. This paper presents the generation of electrical energy from the solar photo voltaic system (SPVS). The SPVS output can increase with the help of synchronised maximum power point solar tracking system (SMPPSTS), hence the system efficiency can be increased. The load on the system is regulated with the effective operation of controller, relays, driver circuit, and sensors.
Worldwide, all the countries looking towards the renewable energy based electrical power generation. The solar energy is the primary renewable energy source. In the photovoltaic solar energy conversion system (PVSECS), the electrical energy is generated from the solar energy. In the rural area, operation and maintenance of PVSECS is difficult. If the systems are monitored through online, only under repairing conditions, the respective expert will visit the plant and it reduces the operating cost. In this paper, presents the maximum power point tracking is maintained by controller (ESP32), light dependent resistors, and DC servomotors with driver circuit. The load is regulated by the controller using relays and the data send to the cloud. This data is useful for the online monitoring of the system. A prototype of PVSECS is developed and its simulation results also presented in various conditions.
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