Moisture content modeling and effective moisture diffusivity determination during convective solar drying of blackberry (rubus spp) and basil (Ocimum basilicum L.)

A. López Ortiz; J.C. Gallardo Brígido; A. Silva Norman; Isaac Pilatowsky Figueroa; Octavio García Valladares; J. Rodríguez Ramírez

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Moisture content modeling and effective moisture diffusivity determination during convective solar drying of blackberry (rubus spp) and basil (Ocimum basilicum L.)

A. López-Ortiz ^[1] ; J.C. Gallardo-Brígido ^[1] ; A. Silva-Norman ^[1] ; I. Pilatowsky-Figueroa ^[1] ; O. García-Valladares ^[1] ; J. Rodríguez-Ramírez ^[2]
1. [1] Universidad Nacional Autónoma de México
  
  Universidad Nacional Autónoma de México
  
  México
2. [2] Instituto Politécnico Nacional
  
  Instituto Politécnico Nacional
  
  México
Localización: IDS2018. 21st International Drying Symposium. Proceedings / Gabriela Clemente Polo (aut.), Juan Andrés Carcel Carrión (aut.), Antoni Mulet Pons (aut.), 2018, ISBN 978-84-9048-688-7, pág. 505
Idioma: inglés
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Resumen
- The goal of reducing energy consumption (EC), losses and waste (FL) in the food processing is a challenges in the worldwide. The use of active solar greenhouse dryers (GHD) for EC and FL reductions has increased due to its capacity, and low operating costs. In this work the effective diffusivity (Deff) and the moisture content modeling were analized for basil (Ocimum basilicum) and blackberry pulp (Rubus rosoideae) dried in a conventional stove (CD) and an GHD coupled to an additional air solar heating system (SCHa). The loss of water and the drying rate in food materials dehydrated in the GHD is consistent with the increment or decrement of temperature during the solar day. The Deff values for basil and blackberry pulp was ranged between - 1.1044x10-7 and -3.9167x10-9. The solar energy obtained in the GHD supplied the heating requirements. In general, the Page’s model was the best fit for the drying kinetics for basil and blackberry pulp.