Abstract
In this study, a small dish concentrator with a cylindrical cavity receiver was experimentally investigated as the heat source of a dryer. The system was examined for operation with pure thermal oil and Al2O3/oil nanofluid as the working fluids in the solar system. Moreover, the design, the development, and the evaluation of the dried mint plant are presented in this work. Also, the solar dryer system was simulated by the SolidWorks and ANSYS CFX software. On the other side, the color histogram of the wet and dried mint samples based on the RGB method was considered. The results revealed that the different temperatures of the solar working fluids at the inlet and outlet of the cavity receiver showed similar trend data compared to the variation of the solar radiation during the experimental test. Moreover, it is found that the cavity heat gain and thermal efficiency of the solar system was improved by using the nanofluid as the solar working fluid. Furthermore, the required time for mint drying had decreased by increasing the drying temperature and increasing air speed. The highest drying time was measured equal to 320 min for the condition of the air speed equal to 0.5 m/s and the drying temperature of 30 °C. A good agreement was observed between the calculated numerical results and measured experimental data. Finally, based on the color histogram of the wet and dried mint samples, it was concluded that intensity amount of the red color of the mint increased with the drying process compared to intensity amount of the red color of the wet mint sample.
Highlights
Nowadays, the application of renewable energies is introduced as an alternative source of energy to fossil fuels [1]
A cylindrical cavity receiver was used as the dish absorber
An indirect solar dryer system using a dish concentrator with a cylindrical cavity receiver was experimentally built and tested
Summary
The application of renewable energies is introduced as an alternative source of energy to fossil fuels [1]. Increasing negative effects of fossil fuel consumption on the environment, including depletion of the ozone layer, global warming, and air pollution air, have forced human to use renewable energies instead of fossil fuels for providing energy [2,3,4]. There are different kinds of renewable energy sources, including solar energy, wind energy, biomass energy, geothermal energy, etc. Among the mentioned renewable energies, solar energy is investigated as a common source of energy that is Energies 2019, 12, 4747; doi:10.3390/en12244747 www.mdpi.com/journal/energies. Solar collectors can collect solar energy and produce useful heat. There are different applications for the collected heat by solar collectors, including power generation, desalination, and drying [7]. The drying is investigated as the highest energy-consuming process among crop-producing processes [8]. Drying of medicinal plants is a delicate undertaking, in which direct sunlight and high temperatures are detrimental to the plant’s active ingredients
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