Diseño autónomo del sistema solar térmico para la deshidratación indirecta de Aguaymanto (Physalis Peruviana L.), Junín
Contenido principal del artículo
Resumen
Con el propósito de tener un diseño de secador solar indirecto autónomo para deshidratar el aguaymanto, que sea económico y de calidad y que permita exportar de la parte alta central de nuestro país, se propuso el objetivo general: diseñar, un prototipo de autónomo secador solar de 100 kg por lote de aguaymanto, con reflectores planos y aire forzado alimentado con energía fotovoltaica que permita secar esta fruta con los requisitos para su exportación. Las dimensiones de la secadora son las siguientes: dimensiones interiores de la cámara de secado: fondo 0,60 m, ancho 1,40 m, altura 1,10 m, y 0,05 m para el aislamiento, por lo que las medidas exteriores son fondo 0,70 m, ancho 1,50 m, altura 1,20 m. Se proponen dos colectores solares con dimensiones cada una de: 1,50 m de ancho, 2,40 m de largo y 0,15 m de alto, de los cuales se requerirán 2 reflectores de espejo plano. Se seleccionó un panel fotovoltaico de 80 Wp para el sistema de aire forzado y el control del procesado. Este secador solar permitirá abordar el problema del deterioro posterior a la cosecha y facilitará la exportación, porque mejorará la calidad y el costo económico
Palabras Clave
Agroindustrial, deshidratación, colector solar, sistema solar térmico, aguaymanto Agro-industrial, dehydration, solar collector, solar thermal system, aguaymanto Agroindustrial, desidratação, coletor solar, sistema solar térmico, aguaymanto
Citas
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Marcucci, A., and Turton. H. (2015). Induced technological change in moderate and fragmented climate change mitigation regimes. Technol Forecast Soc Change, 90:230-242.
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Campoccia, A., Dusonchet, L., Telaretti, E., and Zizzo, G. (2009). Comparative analysis of different supporting measures for the production of electrical energy by solar PV and Wind systems: four representative European cases. Solar Energy, 83(3):287–97.
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Mekhilef, S., Saidur, R. & Safari, A. (2011). A review on solar energy use in industries. Renewable and Sustainable Energy Reviews, 15(4):1777–1790. https://doi.org/10.1016/J.RSER.2010.12.018
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Roche-Delgado, L., Hernández-Touset, J. P. and García-Rodríguez, A. (2017). CONCEPTUAL DESIGN OF A PILOT SCALE SOLAR DRYER FOR MARINE ALGAE. Chemical Technology,37(2):184-200.Retrieved from http://scielo.sld.cu/scielo.php?script=sci_arttextid=S2224-61852017000200003
Benavides, L. (Exporting Sierra) (2014). PROJECT: INDUSTRIAL INNOVATION DEHYDRATATION OF BERRIES - AGUAYMANTO 2014-2015 | PDF Flipbook. Retrieved March 6, 2018, from Sierra Exportadora website: http://www.youblisher.com/p/1108803-PROYECTO-INNOVACION-INDUSTRIAL-DESHIDRATACION-DE-BERRIES-AGUAYMANTO-2014-2015/
AOAC (2000). Official Methods of Analysis. Retrieved from http://sutlib2.sut.ac.th/sut_contents/H125800.pdf
Camayo-Lapa, B. F., Pomachagua-Paucar, J. E., Massipe-Hernaández, J. R., Quispe-Flores, M. O. and Torres-Ten, A. (2017). Validation and application of the Bristow Campbell model to estimate the global solar radiation of the Junin region. Chemical Technology, 37(3): 574-590. Retrieved from http://scielo.sld.cu/scielo.php?script=sci_arttextid=S2224-61852017000300015
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feb 25, 2021
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