Clemente Polo, G.; Bon Corbín, J.; Sanjuán Pellicer, MN.; Mulet Pons, A. (2011). Drying modelling of defrosted pork meat under forced convection conditions. Meat Science. 88(3):374-378. https://doi.org/10.1016/j.meatsci.2011.01.012
Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10251/78106
Title:
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Drying modelling of defrosted pork meat under forced convection conditions
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Author:
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Clemente Polo, Gabriela
Bon Corbín, José
Sanjuán Pellicer, María Nieves
Mulet Pons, Antonio
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UPV Unit:
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Universitat Politècnica de València. Escuela Técnica Superior de Ingeniería Agronómica y del Medio Natural - Escola Tècnica Superior d'Enginyeria Agronòmica i del Medi Natural
Universitat Politècnica de València. Departamento de Tecnología de Alimentos - Departament de Tecnologia d'Aliments
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Issued date:
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Abstract:
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Drying is the lengthiest and the most energy consuming step during the production of dry-cured ham, affecting also the curing process and consequently product quality. In order to manage the drying process, it is quite ...[+]
Drying is the lengthiest and the most energy consuming step during the production of dry-cured ham, affecting also the curing process and consequently product quality. In order to manage the drying process, it is quite interesting to establish the complexity of model needed. For that purpose, pork meat cylinders (Biceps femoris and Semimembranosus muscles) were dehydrated under forced convection conditions (25°C and air velocity 0.6±0.1, 2.0±0.1 and 2.8±0.1m/s). Experimental drying kinetics were modelled by means of 4 diffusion models: model 1 (not considering shrinkage and no external resistance), model 2 (considering shrinkage and no external resistance), model 3 (not considering shrinkage and considering external resistance) and model 4 (considering both shrinkage and external resistance). From the effective diffusivity values identified, it was concluded that when external resistance was negligible (air velocity 2.0±0.1 and 2.8±0.1m/s), the results obtained for De with the four models were the same. Nevertheless, when external resistance was not negligible (0.6±0.1m/s) the De identified was influenced by the model due to the fact that models 1 and 2 neglect that resistance and for that reason they do not describe experimental conditions properly. The effect of shrinkage did not influence the identified De values for the drying conditions considered. In order to model water losses in meat curing chambers, external resistance must be considered. © 2011 Elsevier B.V.
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Subjects:
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Defrosted pork meat
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Drying
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Effective diffusivity
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External resistance
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Modelling
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Shrinkage
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Air velocities
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Biceps femoris
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Curing process
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Diffusion model
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Dry-cured ham
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Drying condition
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Drying kinetic
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Drying process
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Effective diffusivities
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Experimental conditions
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Pork meat
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Product quality
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Semimembranosus muscles
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Water loss
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Curing
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Cylinders (shapes)
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Diffusion
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Forced convection
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Meats
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Water
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Animal
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Article
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Biological model
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Chemistry
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Comparative study
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Food preservation
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Kinetics
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Meat
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Methodology
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PH
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Skeletal muscle
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Spain
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Swine
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Animals
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Hydrogen-Ion Concentration
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Models, Biological
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Muscle, Skeletal
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Sus scrofa
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Copyrigths:
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Cerrado |
Source:
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Meat Science. (issn:
0309-1740
)
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DOI:
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10.1016/j.meatsci.2011.01.012
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Publisher:
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Elsevier
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Publisher version:
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http://dx.doi.org/10.1016/j.meatsci.2011.01.012
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Project ID:
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info:eu-repo/grantAgreement/MEC//CSD2007-00016/ES/PRODUCTOS CARNICOS PARA EL SIGLO XXI: SEGUROS, NUTRITIVOS Y SALUDABLES/
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Thanks:
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The authors of this paper acknowledge the financial support from the "Ministerio de Educacion y Ciencia" in Spain, CONSOLIDER INGENIO 2010 (CSD2007-00016).
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Type:
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Artículo
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