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Performance Assessment of Solar Dryer for Processing Perishable Vegetables
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Drying is the moisture removing process from the products. Drying is very important process applicable for agricultural and industrial products. Drying reduces the bacterial growth in the products. It will helpful for preserving the products for long time. Open air and uncontrolled sun drying is still the most common method used to preserve and process Agricultural product. But uncontrolled drying suffers from serious problem of wind born dust, infestation by insect, product may be totally damaged. Solar drying is the oldest method of products drying. Local made solar dryers have been developed and used to dry agricultural products in order to improve shelf-life. The objective of this study is to see the advantages of solar dryer on their effectiveness in the drying of agricultural products. The findings showed that the solar dryer is beneficial than the sun drying techniques. Solar dryers have shortcomings. They are of little use during cloudy weather. During fair weather they can work too well. Although solar dryers involve an initial expense, they produce better looking, better tasting, and more nutritious foods, enhancing both their food value and their marketability. They are faster, safer and more efficient than traditional sun drying techniques.
Keywords
Solar Dryer, Processing Perishable, Vegetables.
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- Bala, B.K. and Woods, J.L. (1994). Simulation of the indirect natural convection solar drying of rough rice. Sol Energy 53 (3) : 259-266.
- Bala, B.K. and Mondal, M.R.A (2001). Experimental investigation of solar drying of fish using solar tunnel dryer. Dry Technol., 19 (2): 1-10.
- Bala, B. K., Morshed, M. A. and Rahman, M. F. (2009). Solar drying of mushroom using solar tunnel dryer. Internat. Solar Food Process. Conference, 1-11.
- Esper, A. and Muhlbaure, W. (1993). Development and dissemination of solar tunnel drier. ISES Sol World Cong, Budapest, 8 : 22-25.
- Esper, A., Hensel, O. and Muhlbauer, W. (1994). PV-Driven solar tunnel dryer. Agric. Engg. Conference, Bangkok, Dec. 6-9.
- Giri, S.K. and Prasad, S. (2007). Drying kinetics and rehydration characteristics of microwave-vacuum and convective hot-air dried mushrooms. J. Food Engg., 78 : 512–521.
- Karim, M.A. (2005). Hawlader, MNA. Mathematical modeling and experimental investigation of tropical fruits drying. Internat. J. Heat Mass Trans., 48 : 4914 - 4925.
- Kotwaliwale, N., Bakane, P. and Verma, A.(2007). Changes in textural and optical properties of oyster mushroom during hot air drying. J. Food Engg., 78: 1207–1211.
- Mastekbayeva, G.A., Bhatta, C.P., Leon, M.A. and Kumar, S.(1999). Experimental studies on hybrid dryer. Presented at ISES Sol World Cong, Israel, 4-9 July 1999.
- Middili, A., Olgun, H. and Ayhan, T. (2001). Experimental studies on mushroom and pollen drying. Intetnat. J. Energy Res., 23 (13) : 1143–1152.
- Sharma, V.K., Colalgelo, A. and Spagna, G. (1995). Experimental investigation of different solar dryers suitable for fruits and vegetables drying. Renew Energy, 6(4): 413-424.
- Shukla, B.D. and Singh, S.P. (2007). Osmo-convective drying of cauliflower, mushroom and green pea. J. Food Engg., 80 : 741–747.
- Simate, I. N. (2003). Optimization of mixed mode and indirect mode natural convection solar dryers. Renew Energy, 28 : 435-453.
- Torringa, E., Esveld, E., Scheewe, I.,Van den Berg and Bartels, P. (2001). Osmotic dehydration as a pretreatment before combined microwave-hot air drying of mushrooms. J. Food Engg., 49: 185–191.
- Walde, S.G., Velu, V., Jyothirmayi, T. and Math, R.G. (2006). Effects of pretreatments and drying methods on dehydration of mushroom. J. Food Engg., 74 : 108–115.
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