Design and Construction of Electrical Controller for Solar-Electric Heaters in order to Optimize Energy Consumption

Mahboob Kanafi, Sahar (2018) Design and Construction of Electrical Controller for Solar-Electric Heaters in order to Optimize Energy Consumption. Masters thesis, University of Mohaghegh Ardabili.

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Abstract

The limitations of fossil fuels have made it imperative to increasingly focus on renewable energies such as solar energy. One of the applications of solar energy is heating, which can be used in solar air heater. The objective of this research is to determine the influence of usage of heat control systems on the performance of solar heater. Three electrical elements are embedded in the outlet of the heater so that the heating of the elements is illuminated and the hot air is generated. Six LM35 bipods were installed at different points in the collector to determine the temperature and the temperature of the six sensors was recorded in the Matlab program. Our goal was to provide a temperature of 60 degrees Celsius, which is used to dry summer fruits such as apricots. Different values of measured temperature showed that as the temperature intervals for application of the elements are higher, due to the reduction of the frequency in the circuit, the performance of the temperature control system is more suitable. Also, the performance of the temperature controller was determined in three status i.e., when both elements are active and off, two elements are simultaneously active and off and when only one element is active or off. Comparison of variances showed that when both elements are active, this control system had a timely and proper response to the three-element and single-element mode due to the low standard deviation. The results also showed that the use of electric elements in solar air heaters can be compensated for inadequate warm air in rainy days or in areas such as Ardebil, which is not much solar radiation. The LM35 was installed at different points of the collector to determine the temperature, and the temperature of the six sensors was recorded in the program.. According to the calculations, it was found that during the sampling hours, the contribution of solar energy to the supply of hot air was 44.44% on a completely smooth and sunny, and 23.66% on the day of sunshine.

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