SELECCIÓN DEL SECADO SOLAR COMO TECNOLOGÍA APROPIADA PARA EL SECADO DE PRODUCTOS AGRÍCOLAS (SELECTION OF SOLAR DRYING AS APPROPRIATE TECHNOLOGY FOR DRYING AGRICULTURAL PRODUCTS)

Juan Quintanar Olguin, Patricia Aguilar Sanchez

Resumen


Resumen
La finalidad del artículo es mostrar los principios básicos de un secado solar, su clasificación tomando como base el calentamiento del fluido de secado, la forma de hacer circular el aire al interior de la cámara y sus principios de operación, cumpliendo con todas las características para clasificarla como tecnología apropiada. Los parámetros más importantes para seleccionar un secador solar están relacionados con las variaciones en el diseño, los materiales de construcción, las condiciones de operación, las preferencias del consumidor y las interpretaciones de calidad del producto seco, así como de carácter económico para realizar el proceso de secado al menor costo posible.
Palabras Clave: Clasificación, parámetros, tipos de secador.

Abstract
The purpose of the article is to show the basic principles of solar drying, its classification based on the heating of the drying fluid, the way to circulate the air inside the chamber and its principles of operation, complying with all the characteristics for classify it as appropriate technology. The most important parameters for selecting a solar dryer are related to variations in design, construction materials, operating conditions, consumer preferences and quality interpretations of the dry product, as well as the economic nature to carry out the process drying at the lowest possible cost.
Keywords: Classification, parameters, types of dryer.

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Referencias


Bhavsar, H. P. 2020. Performance evaluation of various types of solar dryer and drying technologies. International Journal of Advanced Science and Technology 29(9):6020-6032.

Belessiotis, V., & Delyannis, E. 2011. Solar drying. Solar Energy, 85(8), 1665–1691.

Bergues R., C. C. y J. R. Díaz L. (2014). Diagramas de tendencia para la generalización sostenible de secadores solares directos de productos agropecuarios. Tecnología química 34(2):143-151.

Dronachari M. and Shriramulu. 2019. Application of different types solar dryers in agriculture crops- A review. Int. J. Pure App. Biosci. 7(2):303-326 DOI:http://dx.doi.org/10.18782/2320-7051.5586

El-Sebaii A. A. and S.M. Shalaby. 2012. Solar drying of agricultural products: A review. Renewable and Sustainable Energy Reviews 16(1):37– 43

FAO. (2015). Pérdidas y desperdicios de alimentos en América Latina y el Caribe. Boletín 2. 31 p. Disponible: http://www.fao.org/3/I4655S.pdf.

Jambhulkar A. C., V. B. Pawar, S. B. Pawar, A. S. Dharwadkar, P. S. Pandure and S. P. Gadewar. 2017. Solar drying techniques and performance analysis: A review. IOSR Journal of Mechanical and Civil Engineering 6:35-29.

Javi, V. M. 2006. Actualizaciones al concepto de tecnología apropiada. Avances en Energías Renovables y Medio Ambiente 10(12):55-61.

Kabir M. H., P. M D’Souza and M. J. Ahsan. 2016. Prospects of solar energy drying technologies: A critical review. International Journal of Innovative Research in Science, Engineering and Technology 5(10):17866-17870.

Kumar, S., A. Kulshrestha, S. K. saurabh, J. Singh, V. Sumit and R. Joshi. (2016). A study of new models and experimental investigations of solar drier system. International journal of mechanical and production engineering 4(7):7-10.

Mall, P. and D. Singh. (2017). Advanced technologies and experimental investigations in solar dryers: a review. Indian J. Sci. Res. 17(2):145-150.

Montero P., I. (2005). Modelado y construcción de un secadero solar híbrido para residuos biomásicos. Tesis doctoral. Escuela de Ingenierías Industriales. Universidad de Extremadura. Badajoz. España. 262 p.

Lahoud M. F., C. Lahoud and M. Brouche. 2020. Solar drying simulation of different products: Lebanese case. Academia Journal of Scientific Research 8(8):239-249.

Leon, M. A., S. Kumar and S. C. Bhattacharya. 2002. A comprehensive procedure for performance evaluation of solar food dryers. Renewable and Sustainable Energy Reviews 6:367–393.

Quintanar O. J. (2016) Secado solar. In: Unistmo. Alternativas energéticas. Universidad del Istmo. Tehuantepec, Oaxaca, Méx.

Rajeshwari N. and A. Ramalingam. (2012). Low cost material used to construct effective box type solar dryer. Archives of Applied Science Research, 4 (3):1476-1482.

Ramteke R. T., C. N. Gangde and S. R. Kalbande. 2016. Potential and development of solar drying technology: A Review. International Journal of Modern Trends in Engineering and Research 3(6):128-139.

Sharma A., O. Chatta and A. Gupta. 2018. A review of solar energy use in drying. International Journal of Engineering Technology Science and Research 5(3):351-358.

Sreekumar A. (2013). Evaluation of a roof-integrated solar air heating system for drying foodstuffs. International Journal of Emerging Technology and Advanced Engineering 3(3):209-213.

Tiwari, A. 2016. A review on solar drying of agricultural produce. Journal of Food Processing & Technology 7: 623. doi: 10.4172/2157-7110.1000623

Tiwaria G.; V. K. Katiyara; V. Dwivedia; A. K. Katiyarb and C. K. Pandeyb. (2013). A comparative study of commonly used solar dryers in India. International Journal of Current Engineering and Technology 3(3): 994-999.

Turner, J. 1972. Freedom to Build, dweller control of the housing process. Editorial Macmillan. New York, NY.

Umayal S., A. R. and E. Veeramanipriya. 2017. A review of solar dryers for drying agricultural products. Indian J. Sci. Res. 14(1):311-317

Visavale, G. L. 2012. Principles, classification and selection of solar dryers. In Solar drying: Fundamentals, Applications and Innovations, Ed. Hii, C.L., Ong, S.P., Jangam, S.V. and Mujumdar, A.S.,Published in Singapore. Pp. 1‐50.

Zarezade, M. and A. Mostafaeipour. 2016. Identifying the effective factors on implementing the solar dryers for Yazd province, Iran. Renewable and Sustainable Energy Reviews 57:765–775.

Zakaria H. M. (2013). Development of solar dryer for dyring of chilli seeds. Thesis Master of science. Bangladesh Agricultural University. Mymensingh, Bangladesh. 57 p.






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