Abstract
The evaluation of solar thermal energy system explores the thermal monitoring of PV solar cells, which is increasingly important in the global energy arena. It is possible to utilize solar energy with both thermal storage and a steam-generating heat exchanger. A back-up auxiliary heater and flow control technology are used to compensate for the variability of solar energy. The size of the solar field and the thermal storage are regulated via simulation to get the optimum overall thermal efficiency. Increasing the junction temperature of a solar cell module decreases its efficiency. A solar power plant must have the ability to turn on and off at any time; therefore, thermal energy storage is necessary. Various heat transfer methods merged with solar thermal energy storage systems are examined and evaluated to achieve high accuracy and reliability for predicting the performance of solar thermal energy systems.
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