Advanced search
Publication Cover
Drying Technology
An International Journal
Volume 35, 2017 - Issue 3
Submit an article Journal homepage
247
Views
16
CrossRef citations to date
0
Altmetric
Original Articles

Numerical approach to describe continuous and intermittent drying including the tempering period: Kinetics and spatial distribution of moisture

Wilton Pereira da SilvaFederal University of Campina Grande, Campus I, Campina Grande, BrazilCorrespondence[email protected]
,
Andréa Fernandes RodriguesFederal University of Campina Grande, Campus I, Campina Grande, Brazil
,
Cleide Maria D. P. S. e SilvaFederal University of Campina Grande, Campus I, Campina Grande, Brazil
&
Josivanda Palmeira GomesFederal University of Campina Grande, Campus I, Campina Grande, Brazil
Pages 272-280 | Published online: 04 Jan 2017

References

  • Katekawa, M.E.; Silva, M.A. Drying rates in shrinking medium: Case study of banana. Brazilian Journal of Chemical Engineering 2007, 24(4), 561–569.
  • Silva, W.P.; Mata, M.E.R.M.C.; Silva, C.D.P.S.; Guedes, M.A.; Lima, A.G.B. Determination of diffusivity and activation energy for cowpea grains (Vigna unguiculata (L.) Walp.), always-green variety, based on its drying behavior. Revista Engenharia Agrícola 2008, 28(2), 325–333.
  • Alibaş, İ. Determination of vacuum and air drying characteristics of celeriac slices. Journal of Biological and Environmental Sciences 2012, 6(16), 1–13.
  • Silva, W.P.; Amaral, D.S.; Duarte, M.E.M.; Mata, M.E.R.M.C.; Silva, C.M.D.P.S.; Pinheiro, R.M.M.; Pessoa, T. Description of the osmotic dehydration and convective drying of coconut (Cocos nucifera L.) pieces: A three-dimensional approach. Journal of Food Engineering 2013, 115(1), 121–131.
  • Kowalski, S.J.; Pawłowski, A. Drying of wet materials in intermittent conditions. Drying Technology 2010, 28(5), 636–643.
  • Yang, Z.; Zhu, E.; Zhu, Z.; Wang, J.; Li, S. A comparative study on intermittent heat pump drying process of Chinese cabbage (Brassica campestris L. ssp.) seeds. Food and Bioproducts Processing 2013, 91(4), 381–388.
  • Cihan, A.; Kahveci, K.; Hacıhafızoglu, O. Modelling of intermittent drying of thin layer rough rice. Journal of Food Engineering 2007, 79(1), 293–298.
  • Zhu, Y.; Pan, Z.; McHugh, T.H.; Barrett, D.M. Processing and quality characteristics of apple slices processed under simultaneous infrared dry-blanching and dehydration with intermittent heating. Journal of Food Engineering 2010, 97(1), 8–16.
  • Baini, R.; Langrish, T.A.G. Choosing an appropriate drying model for intermittent and continuous drying of bananas. Journal of Food Engineering 2007, 79(1), 330–343.
  • Lima, A.G.B.; Nebra, S.A. Theoretical study of intermittent drying (tempering) in prolate spheroidal bodies. Drying Technology 2001, 19(8), 1569–1589.
  • Munson-McGee, S.H. Moisture profiles during intermittent soaking of an oblate spheroid. Journal of Food Engineering 2014, 125(1), 77–83.
  • Cihan, A.; Ece, M.C. Liquid diffusion model for intermittent drying of rough rice. Journal of Food Engineering 2001, 49(4), 327–331.
  • Nishiyama, Y.; Cao, W.; Li, B. Grain intermittent drying characteristics analyzed by a simplified model. Journal of Food Engineering 2006, 76(3), 272–279.
  • Dong, R.; Lu, Z.; Liu, Z.; Nishiyama, Y.; Cao, W. Moisture distribution in a rice kernel during tempering drying. Journal of Food Engineering 2009, 91(1), 126–132.
  • Silva, V.; Figueiredo, A.R.; Costa, J.J.; Guiné, R.P.F. Experimental and mathematical study of the discontinuous drying kinetics of pears. Journal of Food Engineering 2014, 134, 30–36.
  • Golmohammadi, M.; Assar, M.; Rajabi-hamaneh, M.; Hashemi, S.J. Energy efficiency investigation of intermittent paddy rice dryer: Modeling and experimental study. Food and Bioproducts Processing 2015, 94, 275–283. doi:10.1016/j.fbp.2014.03.004
  • Da Silva, W.P.; Silva, C.M.D.P.S.; Gama, F.J.A. Estimation of thermo-physical properties of products with cylindrical shape during drying: The coupling between mass and heat. Journal of Food Engineering 2014, 141(1), 65–73.
  • Luikov, A.V. Analytical Heat Diffusion Theory; Academic Press: New York, 1968.
  • Da Silva, W.P.; Silva, C.M.D.P.S.; Farias, V.S.O.; Gomes, J.P. Diffusion models to describe the drying process of peeled bananas: Optimization and simulation. Drying Technology 2012, 30(1), 164–174.
  • Da Silva, W.P.; Silva, C.M.D.P.S.; Farias, V.S.O.; Silva, D.D.P.S. Calculation of the convective heat transfer coefficient and cooling kinetics of an individual fig fruit. Heat and Mass Transfer 2010, 46(3), 371–380.
  • Da Silva, W.P.; Silva, C.M.D.P.S.; Nascimento, P.L.; Carmo, J.E.F.; Silva, D.D.P.S. Influence of the geometry on the numerical simulation of the cooling kinetics of cucumbers. Spanish Journal of Agricultural Research 2011, 9(1), 242–251.
  • Da Silva, W.P.; Hamawand, I.; Silva, C.M.D.P.S. A liquid diffusion model to describe drying of whole bananas using boundary-fitted coordinates. Journal of Food Engineering 2014, 137(1), 32–38.
  • Kowalski, S.J.; Pawłowski, A. Energy consumption and quality aspect by intermittent drying. Chemical Engineering and Processing: Process Intensification 2011, 50(4), 384–390.
  • Le Niliot, C.; Lefèvre, F. A parameter estimation approach to solve the inverse problem of point heat sources identification. International Journal of Heat and Mass Transfer 2004, 47(4), 827–841.
  • Mariani, V.C.; Amarante, A.C.C.; Coelho, L.S. Estimation of apparent thermal conductivity of carrot purée during freezing using inverse problem. International Journal of Food Science and Technology 2009, 44(7), 1292–1303.
  • Zhu, Z.; Zhao, Y.; Wang, F. Experimental research on intermittent heat pump drying with constant and time-variant intermittency ratio. Drying Technology 2016, 34, 1630–1640. doi:10.1080/07373937.2016.1138966
  • Monnerat, S.M.; Pizzi, T.R.M.; Mauro, M.A.; Menegalli, F.C. Spatial distribution of solutes and water in sucrose solution dehydrated apples. Drying Technology 2005, 23(9–11), 2289–2299.
  • Kowalski, S.J.; Szadzińska, J.; Pawłowski, A. Ultrasonic-assisted osmotic dehydration of carrot followed by convective drying with continuous and intermittent heating. Drying Technology 2015, 33(13), 1570–1580.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.