Advanced search
Publication Cover
Drying Technology
An International Journal
Volume 37, 2019 - Issue 10
Submit an article Journal homepage
283
Views
17
CrossRef citations to date
0
Altmetric
Original Articles

Effect of hysteresis phenomena of cellular plant-based food materials on convection drying kinetics

M. H. MasudDepartment of Mechanical Engineering, Rajshahi University of Engineering and Technology, Rajshahi, Bangladesh; Correspondence[email protected]
,
Mohammad U. H. JoardderDepartment of Mechanical Engineering, Rajshahi University of Engineering and Technology, Rajshahi, Bangladesh;
&
M. A. KarimScience and Engineering Faculty, Queensland University of Technology, Brisbane, Australia
Pages 1313-1320 | Received 05 Mar 2018, Accepted 05 Jul 2018, Published online: 08 Oct 2018

References

  • Karel, M.; Lund, D. B. Physical Principles of Food Preservation: Revised and Expanded; CRC Press: New York, USA, 2003; Vol.129.
  • Joardder, M. U.; Karim, A.; Kumar, C.; Brown, R. J. Porosity: Establishing the Relationship between Drying Parameters and Dried Food Quality; Springer: Switzerland, 2015.
  • Joardder, M. U. H.; Masud, M. H.; Azharul, M. Relationship between Intermittency of Drying, Microstructural Changes, and Food Quality. Intermittent and Nonstationary Drying Technologies: Principles and Applications. 2017, 123.
  • Sanghi, A.; Ambrose, R. P. K.; Maier, D. CFD Simulation of Corn Drying in a Natural Convection Solar Dryer. Dry. Technol. 2018, 36, 859–870.
  • Orsat, V.; Yang, W.; Changrue, V.; Raghavan, G. S. V. Microwave-Assisted Drying of Biomaterials. Food Bioprod. Process. 2007, 85, 255–263.
  • Karim, M. A.; Hawlader, M. N. A. Mathematical Modelling and Experimental Investigation of Tropical Fruits Drying. Int. J. Heat Mass Transf. 2005, 48, 4914–4925.
  • Lee, M. G.; Mansouri, J. P.; Mansouri, S.; Hapgood, K.; Woo, M. W. New Narrow Tube Spray Dryer for Precise Drying History Control. Dry. Technol. 2018, 36, 178–191.
  • Duan, X.; Liu, W. C.; Ren, G. Y.; Yang, X. Effects of Different Drying Methods on the Physical Characteristics and Flavor of Dried Hawthorns (Crataegus Spp.). Dry. Technol. 2017, 35, 1412–1421.
  • Izli, N.; Izli, G.; Taskin, O. Impact of Different Drying Methods on the Drying Kinetics, Color, Total Phenolic Content and Antioxidant Capacity of Pineapple. CyTA-J. Food 2018, 16, 213–221.
  • Puranik, V.; Srivastava, P.; Mishra, V.; Saxena, D. C. Effect of Different Drying Techniques on the Quality of Garlic: A Comparative Study. Am. J. Food Technol. 2012, 7 (5), 311–319.
  • Kompany, E.; Benchimol, J.; Allaf, K.; Ainseba, B.; Bouvier, J. M. Dehydration Kinetics and Modelling. Dry. Technol. 1993, 11, 451–470.
  • Kumar, C.; Karim, M. A.; Joardder, M. U. H. Intermittent Drying of Food Products: A Critical Review. J. Food Eng. 2014, 121, 48–57.
  • Joardder, M. U. H.; Karim, A.; Kumar, C. Effect of Moisture and Temperature Distribution on Dried Food Microstructure and Porosity. In Proceedings of from Model Foods to Food Models: The DREAM Project International Conference, 2013.
  • Elustondo, D. M.; Mujumdar, A. S.; Urbicain, M. J. Optimum Operating Conditions in Drying Foodstuffs with Superheated Steam. Dry. Technol. 2002, 20, 381–402.
  • Delele, M. A.; Weigler, F.; Mellmann, J. Advances in the Application of a Rotary Dryer for Drying of Agricultural Products: A Review. Dry. Technol. 2015, 33, 541–558.
  • Shishido, I.; Suzuki, M.; Ohtani, S. On the Drying Mechanism of Shrinkage Materials. Dry. Technol. 1992, 10, 563–589.
  • Joardder, M. U. H.; Karim, A.; Kumar, C. Effect of Temperature Distribution on Predicting Quality of Microwave Dehydrated Food. J. Mech. Eng. Sci. 2013, 5, 562–568.
  • Karathanos, V. Collapse of Structure during Drying of Celery. Dry. Technol. 1993, 11, 1005–1023.
  • Seyedabadi, E.; Khojastehpour, M.; Abbaspour-Fard, M. H. Convective Drying Simulation of Banana Slabs considering Non-Isotropic Shrinkage Using FEM with the Arbitrary Lagrangian–Eulerian Method. Int. J. Food Properties. 2017, 20, S36–S49.
  • Ananías, R. A.; Sepúlveda-Villarroel, V.; Pérez-Peña, N.; Leandro-Zuñiga, L.; Salvo-Sepúlveda, L.; Salinas-Lira, C.; Cloutier, A.; Elustondo, D. M. Collapse of Eucalyptus Nitens Wood after Drying Depending on the Radial Location within the Stem. Dry. Technol. 2014, 32, 1699–1705.
  • Fanta, S. W.; Vanderlinden, W.; Abera, M. K.; Verboven, P.; Karki, R.; Ho, Q. T.; De Feyter, S.; Carmeliet, J.; Nicolaï, B. M. Water Transport Properties of Artificial Cell Walls. J. Food Eng. 2012, 108, 393–402.
  • Qi, H.; Sharma, S. K.; LeMaguer, M. Modeling Multicomponent Mass Transfer in Plant Material in Contact with Aqueous Solutions of Sucrose and Sodium Chloride during Osmotic Dehydration. Int. J. Food Properties 1999, 2, 39–54.
  • Knudsen, K. E. B. The Nutritional Significance of “Dietary Fibre” Analysis. Anim. Feed Sci. Technol. 2001, 90, 3–20.
  • Eastwood, M. A. The Physiological Effect of Dietary Fiber: An Update. Annu. Rev. Nutr. 1992, 12, 19–35.
  • Arrieche, L. S.; Sartori, D. J. M. Fluid Flow Effect and Mechanical Interactions during Drying of a Deformable Food Model. Dry. Technol. 2007, 26, 54–63.
  • Vincent, J. F. V. The Composite Structure of Biological Tissue Used for Food. In Food Materials Science; Aguilera, J. M., Lillford, P. J., Eds.; Springer: Switzerland, 2008; pp 11–20.
  • Kusnadi, C.; Sastry, S. K. Effect of Temperature on Salt Diffusion into Vegetable Tissue. Int. J. Food Properties 2012, 15, 1148–1160.
  • Defendi, R. O.; Nicolin, D. J.; Paraíso, P. R.; Jorge, L. M d M. Assessment of the Initial Moisture Content on Soybean Drying Kinetics and Transport Properties. Dry. Technol. 2016, 34, 360–371.
  • Sasaki, N. Viscoelastic Properties of Biological Materials. In Viscoelasticity-from Theory to Biological Applications; Mollica, F., Preziosi, L., Rajagopal, K. R., Eds.; InTech: London, UK, 2012.
  • Mohsenin, N. N. Physical Properties of Plant and Animal Materials. Gordon and Breach Publishers: Philadelphia, PA, USA, 1986.
  • ASABE. ASABE Technical Library. https://elibrary.asabe.org/standards.asp (accessed July 26, 2017).
  • Ekrami-Rad, N.; Khazaei, J.; Khoshtaghaza, M.-H. Selected Mechanical Properties of Pomegranate Peel and Fruit. Int. J. Food Properties 2011, 14, 570–582.
  • Kim, G.-W.; Kim, M.-S.; Sagara, Y.; Bae, Y.-H.; Lee, I.-B.; Lee, S.-H.; Kang, S.-W. Determination of the Viscoelastic Properties of Apple Flesh Under Quasi-static Compression Based on Finite Element Method Optimization. Food Sci. Technol. Res. 2008, 14 (3), 221–231.
  • Kim, M. S.; Chung, H. M.; Park, J. M.; Lee, Y. H. Mechanical Properties of Apple and Pear. J. Korean Soc. Agric. Mach. 1999, 24, 243–252.
  • Blahovec, J.; Vlčková, M. Paprštein, F. Static Low-Level Bruising in Pears. Res. Agric. Eng. 2002, 48, 41–46.
  • Lawrence, M.; Jiang, Y. Porosity, Pore Size Distribution, Micro-structure. In Bio-aggregates Based Building Materials. RILEM State-of-the-Art Reports; Amziane, S., Collet, F., Eds.; Springer: Dordrecht, Netherlands, 2017; Vol 23.
  • Joardder, M. U. H.; Kumar, C.; Brown, R. J.; Karim, M. A. A Micro-Level Investigation of the Solid Displacement Method for Porosity Determination of Dried Food. J. Food Eng. 2015, 166, 156–164.
  • Joardder, M. U. H.; Brown, R. J.; Kumar, C.; Karim, M. A. Effect of Cell Wall Properties on Porosity and Shrinkage of Dried Apple. Int. J. Food Properties 2015, 18, 2327–2337.
  • Boukouvalas, C. J.; Krokida, M. K.; Maroulis, Z. B.; Marinos-Kouris, D. Density and Porosity: Literature Data Compilation for Foodstuffs. Int. J. Food Properties 2006, 9, 715–746.
  • Ting, V. J. L.; Silcock, P.; Bremer, P. J.; Biasioli, F. X. ‐Ray Micro‐Computer Tomographic Method to Visualize the Microstructure of Different Apple Cultivars. J. Food Sci. 2013, 78, E1735.
  • Pinho, R.; Guiné, F. Shrinkage Characteristics and Porosity of Pears during Drying. 2006, November.
  • de, P. F.; Guiné, R. Influence of Drying Method on Density and Porosity of Pears. Food Bioprod. Process. 2006, 84, 179–185.

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.