Porosity, Bulk Density, and Volume Reduction During Drying: Review of Measurement Methods and Coefficient Determinations. Qiu, J., Khalloufi, S., Martynenko, A., Van Dalen, G., Schutyser, M., & Almeida-Rivera, C. Drying Technology, 33(14):1681-1699, 2015.
abstract   bibtex   
© 2015, Copyright © Taylor & Francis Group, LLC. Several experimental methods for measuring porosity, bulk density, and volume reduction during drying of foodstuffs are available. These methods include, among others, geometric dimension, volume displacement, mercury porosimeter, micro-CT, and NMR. However, data on their accuracy, sensitivity, and appropriateness are scarce. This article reviews these experimental methods, areas of applications, and limits. In addition, the concept of porosity, bulk density, and volume reduction and their evolution as a function of moisture content during drying are presented. In this study, values of initial porosity (ϵ0) and density ratio (β) of some food products are summarized. It has been found that ϵ0 is highly dependent on the type of food products, while β ranges from 1.1 to 1.6. The possibility of calculating solid density based on food compositions has also been validated. The inter-predictions between porosity, bulk density, and volume density have been made mathematically evident.
@article{
 title = {Porosity, Bulk Density, and Volume Reduction During Drying: Review of Measurement Methods and Coefficient Determinations},
 type = {article},
 year = {2015},
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 keywords = {Collapse,Density,Modeling,Porosity,Shrinkage,Volume reduction},
 pages = {1681-1699},
 volume = {33},
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 abstract = {© 2015, Copyright © Taylor & Francis Group, LLC. Several experimental methods for measuring porosity, bulk density, and volume reduction during drying of foodstuffs are available. These methods include, among others, geometric dimension, volume displacement, mercury porosimeter, micro-CT, and NMR. However, data on their accuracy, sensitivity, and appropriateness are scarce. This article reviews these experimental methods, areas of applications, and limits. In addition, the concept of porosity, bulk density, and volume reduction and their evolution as a function of moisture content during drying are presented. In this study, values of initial porosity (ϵ<inf>0</inf>) and density ratio (β) of some food products are summarized. It has been found that ϵ<inf>0</inf> is highly dependent on the type of food products, while β ranges from 1.1 to 1.6. The possibility of calculating solid density based on food compositions has also been validated. The inter-predictions between porosity, bulk density, and volume density have been made mathematically evident.},
 bibtype = {article},
 author = {Qiu, J. and Khalloufi, S. and Martynenko, A. and Van Dalen, G. and Schutyser, M. and Almeida-Rivera, C.},
 journal = {Drying Technology},
 number = {14}
}

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