Experimental Research of Drying Characteristics of Red Banana in a Single Slope Direct Solar Dryer Based on Natural and Forced Convection
Research background. Traditionally, open sun drying method serves to dry the products for long time preservation. Solar drying is also employed to minimise the drying time to achieve the required moisture content. This method inherently contains complex heat and mass transfer mechanism, which makes...
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| Published in | Food Technology and Biotechnology Vol. 59; no. 2; pp. 137 - 146 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | Japanese |
| Published |
Faculty of Food Technology and Biotechnology - University of Zagreb
01.01.2021
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1330-9862 1334-2606 |
| DOI | 10.17113/ftb.59.02.21.6876 |
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| Abstract | Research background. Traditionally, open sun drying method serves to dry the products for long time preservation. Solar drying is also employed to minimise the drying time to achieve the required moisture content. This method inherently contains complex heat and mass transfer mechanism, which makes difficult to describe drying kinetics at the micro level.
Experimental approach. In this present paper, research is carried out to investigate the drying of 5 mm thick slices of red banana (Musa acuminata “Red Dacca”) in a single slope solar dryer based on natural and forced convection. Based on the experiments, a new semi-empirical thin layer drying kinetics is proposed and compared with other existing models. The proposed model with the correlation coefficient (R2) of 0.997 is in very good agreement with other well-known models. Based on the model, we calculated the moisture diffusivity and activation energy of the red banana drying process.
Results and conclusions. It is found that the moisture diffusivity of the red banana samples was in the range of 8.74·10-10-1.56·10-9 m2/s for natural convection solar drying and 8.43·10-9-2.61·10-8 m2/s for forced convection solar drying. The activation energy of the red banana varied from 24.58 to 45.20 kJ/mol for passive and 22.56 to 35.49 kJ/mol for active drying. Besides, we carried out energy and exergy analysis of red banana in the dryers and found that the average exergy losses for the forced and natural convections were 16.1 and 6.63 kJ/kg and the average exergic efficiency of the natural and forced convection dryers was 57.7 and 70.9 %, respectively.
Novelty and scientific contribution. A single slope direct solar dryer was designed and built to maintain the desired temperature for a specified period in both natural and forced convection mode. A novel drying kinetics model with higher correlation coefficient (R2) than the other drying kinetic models is proposed for the preservation of red bananas. |
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| AbstractList | Research background. Traditionally, open sun drying method serves to dry the products for long time preservation. Solar drying is also employed to minimise the drying time to achieve the required moisture content. This method inherently contains complex heat and mass transfer mechanism, which makes difficult to describe drying kinetics at the micro level.
Experimental approach. In this present paper, research is carried out to investigate the drying of 5 mm thick slices of red banana (Musa acuminata “Red Dacca”) in a single slope solar dryer based on natural and forced convection. Based on the experiments, a new semi-empirical thin layer drying kinetics is proposed and compared with other existing models. The proposed model with the correlation coefficient (R2) of 0.997 is in very good agreement with other well-known models. Based on the model, we calculated the moisture diffusivity and activation energy of the red banana drying process.
Results and conclusions. It is found that the moisture diffusivity of the red banana samples was in the range of 8.74·10-10-1.56·10-9 m2/s for natural convection solar drying and 8.43·10-9-2.61·10-8 m2/s for forced convection solar drying. The activation energy of the red banana varied from 24.58 to 45.20 kJ/mol for passive and 22.56 to 35.49 kJ/mol for active drying. Besides, we carried out energy and exergy analysis of red banana in the dryers and found that the average exergy losses for the forced and natural convections were 16.1 and 6.63 kJ/kg and the average exergic efficiency of the natural and forced convection dryers was 57.7 and 70.9 %, respectively.
Novelty and scientific contribution. A single slope direct solar dryer was designed and built to maintain the desired temperature for a specified period in both natural and forced convection mode. A novel drying kinetics model with higher correlation coefficient (R2) than the other drying kinetic models is proposed for the preservation of red bananas. |
| Author | Elavarasan Elangovan Sendhil Kumar Natarajan |
| Author_xml | – sequence: 1 givenname: Elavarasan orcidid: 0000-0002-9001-016X surname: Elangovan fullname: Elangovan, Elavarasan organization: Department of Mechanical Engineering, National Institute of Technology Puducherry, 609609 Karaikal, U.T of Puducherry, India – sequence: 2 givenname: Sendhil Kumar orcidid: 0000-0003-3257-4570 surname: Natarajan fullname: Natarajan, Sendhil Kumar organization: Department of Mechanical Engineering, National Institute of Technology Puducherry, 609609 Karaikal, U.T of Puducherry, India |
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| Snippet | Research background. Traditionally, open sun drying method serves to dry the products for long time preservation. Solar drying is also employed to minimise the... |
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| StartPage | 137 |
| SubjectTerms | activation energy Biotechnology drying kinetics Food processing and manufacture moisture diffusivity moisture ratio correlation red banana drying single slope solar dryer single slope solar dryer; red banana drying; drying kinetics; moisture ratio correlation; moisture diffusivity; activation energy solarna sušara; sušenje crvene banane; kinetika sušenja; indeks korelacije omjera vlage; efektivna difuzivnost vlage; energija aktivacije TP248.13-248.65 TP368-456 |
| Title | Experimental Research of Drying Characteristics of Red Banana in a Single Slope Direct Solar Dryer Based on Natural and Forced Convection |
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