Research Article
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Year 2020, Volume: 26 Issue: 4, 643 - 653, 20.08.2020

Abstract

References

  • Zhan-Wu S, Wei-Hong M, Zhi-Qiang J, Yang B, Zhi-Gao S. “Investigation of dietary fiber, protein, vitamin E and other nutritional compounds of banana flower of two cultivars grown in China”. African Journal of Biotechnology, 9(25), 3888-3895, 2010.
  • Alibas, I. “Characteristics of chard leaves during microwave, convective, and combined microwave convective drying”. Drying Technology, 24(1), 1425-1435, 2006.
  • Barati E. Esfahani JA. “A new solution approach for simultaneous heat and mass transfer during convective drying of mango”. Journal of Food Engineering, 102(4), 302-309, 2011.
  • Heldman DR, Hartel RW. Principles of food Processing. 1st Ed. Gaithersburg, Aspen Publishers, 1998.
  • Lima AGB. Queiroz MR, Nebra SA. “Simultaneous moisture transport and shrinkage during drying solids with ellipsoidal configuration”. Chemical Engineering Journal, 86, 83-85, 2002.
  • Lewis WK, “The rate of drying of solid materials”. Journal of Industrial & Engineering Chemistry, 13(5), 427-432, 1921.
  • Henderson SM, Pabis S. “Grain drying theory I: temperature effect on drying coefficient”. Journal of Agricultural Engineering Research, 6(3), 169-174, 1961.
  • Madamba PS, Driscoll RH, Buckle KA. “The thin layer drying characteristics of garlic slices”. Journal of Food Engineering, 29(1), 75-97, 1996.
  • Wang CY, Singh RP. “A single layer drying equation for rough rice”. American Society of Agricultural Engineers, 78(3001), 33, 1978.
  • Midilli A, Kucuk H, Yapar Z. “A new model for single layer drying”. Drying Technology, 20(7),1503-1513, 2002.
  • Karim MA, Hawlader MNA. “Mathematical modelling and experimental investigation of tropical fruits drying”. International Journal of Heat and Mass Transfer, 48(23), 4914-4925, 2005.
  • Samadi SY, Ghobadian B, Najafi G, Motevali A. “Potential saving in energy using combined heat and power technology for drying agricultural products (banana slices)”. Journal of the Saudi Society of Agricultural Sciences, 13(2), 174-182, 2014.
  • Thuwapanichayanan R, Prachayawarakorn S, Kunwisawa J, Soponronnarit S, “Determination of effective moisture diffusivity and assessment of quality attributes of banana slices during drying”. LWT - Food Science and Technology, 44(6), 1502-1510, 2011.
  • Baini R, Langrish TAG. “An assessment of the mechanisms for diffusion in the drying of bananas”. Journal of Food Engineering, 85, 201-214, 2008.
  • Nguyen HM, Price EW. “Air drying of banana: Influence of experimental parameters, slab thickness, banana maturity and harvesting season”. Journal of Food Engineering, 79(1), 200-207, 2007.
  • Fernando WJN, Low HC, Ahmad AL. “Dependence of the effective diffusion coefficient of moisture with thickness and temperature in convective drying of sliced materials, A study on slices of banana, cassava and pumpkin”. Journal of Food Engineering, 102(4), 310-316, 2011.
  • Silva WP, Silva CMDPS, Gomes JP. “Drying description of cylindrical pieces of bananas in different temperatures using diffusion models”. Journal of Food Engineering, 117, 417-424, 2013.
  • Joardder MUH, Kumar C, Karim MA. “Multiphase transfer model for intermittent microwave-convective drying of food: Considering shrinkage and pore evolution”. International Journal of Multiphase Flow, 95, 101-119, 2017.
  • Saha B, Bucknall M, Arcot J, Driscoll R. “Derivation of two layer drying model with shrinkage and analysis of volatile depletion during drying of banana”. Journal of Food Engineering, 226, 42-52, 2018.
  • Kumar C, Millar GJ, Karim MA. “Effective diffusivity and evaporative cooling in convective drying of food material”. Drying Technology, 33, 227-237, 2015.
  • Doymaz I. “Thin-layer drying behaviour of mint leaves”. Journal of Food Engineering, 74(3), 370-375, 2006.
  • Maskan M. “Microwave/air and microwave finish drying of banana”. Journal of Food Engineering, 44, 71-78, 2000.
  • Sabarez HT. “Computational modelling of the transport phenomena occurring during convective drying of prunes”. Journal of Food Engineering, 111(2), 279-288, 2012.
  • Desmorieux H, Moyne C. In Drying 92. Editors: Mujumdar AS. Analysis of dryer performance for tropical foodstuffs using the characteristic drying curve concept, 834-843, Amsterdam, Elsevier, 1992.
  • Cengel YA. Heat Transfer: A Practical Approach. 2nd ed. Boston, USA, McGraw-Hill, 2002.
  • Hassan Beygi SR, Aghbashlo M. Kianmehr MH, Massah J. “Drying characteristics of walnut (Juglans regia L,) during convection drying”. International Agrophysics, 23(2), 129-135, 2009.
  • Kashaninnejad M, Mortazavi A, Safekordi A, Tabil LG. “Thin-layer characteristics and modeling of pistachionuts”. Journal of Food Engineering, 78, 98-108, 2007.
  • Goyal RK, Kingsly ARP, Mainkanthan MR, Ilyas SM. “Mathematical modeling of thin- layer drying kinetics of plum in a tunnel dryer”. Jourrnal of Food Engineering, 79(1), 176-180, 2007.
  • Pangavhane DR, Sawhney PN, Sarsavadia PN. “Effect of various dipping pretreatments on drying kinetics of thompson seedless grapes”. Journal of Food Engineering, 39, 211-216, 1999.
  • Doymaz I. “Experimental study on drying of pear slices in a convective dryer”. International Journal of Food Science and Technology, 48, 1909-1915, 2013.
  • Dissa AO, Desmorieux H, Savadogo PW, Segda BG, Koulidiati J. “Shirinkage porosity abd density behaviour during convective drying of spirlulina”. Journal of Food Engineering, 97(3), 410-418, 2010.
  • Moffat RJ. “Describing the uncertainties in experimental results”. Experimental Thermal and Fluid Science, 1(1), 3-17, 1988.
  • Akpınar EK. “Deneysel çalışmalardaki hata analizine bir örnek: Kurutma deneylerindeki hata analizi”, Mühendis ve Makine, 46(540), 41-48, 2005.
  • Bart-Plange A, Addo A, Ofori H, Asare V. “Thermal properties of gros michel banana grown in Ghana”. ARPN Journal of Engineering and Applied Sciences, 7(4), 478-484, 2012.
  • Mercali GD, Tessaro IC, Norena CPZ, Marczak LDF. “Mass transfer kinetics during osmotic dehydration of bananas (Musa sapientum, shum.)”. International Journal of Food Science and Technology, 45(11), 2281-2289, 2010.
  • Afolabi TJ, Agarry SE. “Mathematical modelling and simulation of the mass and heat transfer of batch convective air drying of tropical fruits”. Chemical and Process Engineering Research, 23, 9-19, 2014.
  • Izli N, Isik E. “Color and microstructure properties of tomatoes dried by microwave, convective, and microwave-convective methods”. International Journal of Food Properties, 18, 241-249, 2015.
  • Seyedabadi E, Khojastehpour M, Abbaspour-Fard MH. “Convective drying simulation of banana slabs considering non-isotropic shrinkage using FEM with the Arbitrary Lagrangian-Eulerian method”. International Journal of Food Properties, 20, 36-49, 2017.
  • Comsol Multiphysics 5.3. “Heat Transfer Model Library”. Heat Transfer Module User’s Guide, USA, 2017.
  • Izli N, Isik E. “Effect of Different Drying Methods on Drying Characteristics, Colour and Microstructure Properties of Barbunia Bean (Phaseolus vulgaris L.)”. Journal of Agricultural Faculty of Gaziosmanpasa University, 33(2), 79-88, 2016.
  • Pagliarini E, Vernile M, Peri C. “Kinetics study on color changes in milk due to heat”. Journal of Food Science, 55(6), 1766-1767, 1990.
  • Zogzas NP, Maroulis ZB, Marinos-Kouris D. “Moisture diffusivity data compilation in foodstuffs”. Drying Technology, 14, 2225-2253, 1996.
  • Liu G, Chen J, Liu M, Wan X. “International Conference on Advances in Computational Modeling and Simulation Shrinkage, porosity and density behaviour during convective drying of bio-porous material”. Procedia Engineering, 31, 634-640, 2012.

Experimental and theoretical investigation of drying kinetics of banana slices

Year 2020, Volume: 26 Issue: 4, 643 - 653, 20.08.2020

Abstract

Modeling of the hot air dehydration period is very important to increase food property and reduce energy consumption. The objective of the study is to examine the drying behaviour of banana slices by using convective hot air drying method. Drying kinetics of the banana slices was investigated experimentally for different air temperatures (40, 50, and 60 °C). The drying models were fitted to the experimental data. The model which gives the nearest results to the experimental information was predicted as the Midilli model (R2=0.99). It was determined that the L (brightness) colour parameter value declined as the moisture content of the food decreased. Effective diffusion coefficients (2.02×10-10, 5.05×10-10, and 8.08×10-10 m2 s-1), activation energy (61.1 kJ (mol)-1) and shrinkage coefficients (23%, 32% and 40%) were calculated and it was seen to be compatible with the data given in the literature on food drying. The temperature and moisture content obtained from the experimental study were compared with numerical analysis and found to be compatible.

References

  • Zhan-Wu S, Wei-Hong M, Zhi-Qiang J, Yang B, Zhi-Gao S. “Investigation of dietary fiber, protein, vitamin E and other nutritional compounds of banana flower of two cultivars grown in China”. African Journal of Biotechnology, 9(25), 3888-3895, 2010.
  • Alibas, I. “Characteristics of chard leaves during microwave, convective, and combined microwave convective drying”. Drying Technology, 24(1), 1425-1435, 2006.
  • Barati E. Esfahani JA. “A new solution approach for simultaneous heat and mass transfer during convective drying of mango”. Journal of Food Engineering, 102(4), 302-309, 2011.
  • Heldman DR, Hartel RW. Principles of food Processing. 1st Ed. Gaithersburg, Aspen Publishers, 1998.
  • Lima AGB. Queiroz MR, Nebra SA. “Simultaneous moisture transport and shrinkage during drying solids with ellipsoidal configuration”. Chemical Engineering Journal, 86, 83-85, 2002.
  • Lewis WK, “The rate of drying of solid materials”. Journal of Industrial & Engineering Chemistry, 13(5), 427-432, 1921.
  • Henderson SM, Pabis S. “Grain drying theory I: temperature effect on drying coefficient”. Journal of Agricultural Engineering Research, 6(3), 169-174, 1961.
  • Madamba PS, Driscoll RH, Buckle KA. “The thin layer drying characteristics of garlic slices”. Journal of Food Engineering, 29(1), 75-97, 1996.
  • Wang CY, Singh RP. “A single layer drying equation for rough rice”. American Society of Agricultural Engineers, 78(3001), 33, 1978.
  • Midilli A, Kucuk H, Yapar Z. “A new model for single layer drying”. Drying Technology, 20(7),1503-1513, 2002.
  • Karim MA, Hawlader MNA. “Mathematical modelling and experimental investigation of tropical fruits drying”. International Journal of Heat and Mass Transfer, 48(23), 4914-4925, 2005.
  • Samadi SY, Ghobadian B, Najafi G, Motevali A. “Potential saving in energy using combined heat and power technology for drying agricultural products (banana slices)”. Journal of the Saudi Society of Agricultural Sciences, 13(2), 174-182, 2014.
  • Thuwapanichayanan R, Prachayawarakorn S, Kunwisawa J, Soponronnarit S, “Determination of effective moisture diffusivity and assessment of quality attributes of banana slices during drying”. LWT - Food Science and Technology, 44(6), 1502-1510, 2011.
  • Baini R, Langrish TAG. “An assessment of the mechanisms for diffusion in the drying of bananas”. Journal of Food Engineering, 85, 201-214, 2008.
  • Nguyen HM, Price EW. “Air drying of banana: Influence of experimental parameters, slab thickness, banana maturity and harvesting season”. Journal of Food Engineering, 79(1), 200-207, 2007.
  • Fernando WJN, Low HC, Ahmad AL. “Dependence of the effective diffusion coefficient of moisture with thickness and temperature in convective drying of sliced materials, A study on slices of banana, cassava and pumpkin”. Journal of Food Engineering, 102(4), 310-316, 2011.
  • Silva WP, Silva CMDPS, Gomes JP. “Drying description of cylindrical pieces of bananas in different temperatures using diffusion models”. Journal of Food Engineering, 117, 417-424, 2013.
  • Joardder MUH, Kumar C, Karim MA. “Multiphase transfer model for intermittent microwave-convective drying of food: Considering shrinkage and pore evolution”. International Journal of Multiphase Flow, 95, 101-119, 2017.
  • Saha B, Bucknall M, Arcot J, Driscoll R. “Derivation of two layer drying model with shrinkage and analysis of volatile depletion during drying of banana”. Journal of Food Engineering, 226, 42-52, 2018.
  • Kumar C, Millar GJ, Karim MA. “Effective diffusivity and evaporative cooling in convective drying of food material”. Drying Technology, 33, 227-237, 2015.
  • Doymaz I. “Thin-layer drying behaviour of mint leaves”. Journal of Food Engineering, 74(3), 370-375, 2006.
  • Maskan M. “Microwave/air and microwave finish drying of banana”. Journal of Food Engineering, 44, 71-78, 2000.
  • Sabarez HT. “Computational modelling of the transport phenomena occurring during convective drying of prunes”. Journal of Food Engineering, 111(2), 279-288, 2012.
  • Desmorieux H, Moyne C. In Drying 92. Editors: Mujumdar AS. Analysis of dryer performance for tropical foodstuffs using the characteristic drying curve concept, 834-843, Amsterdam, Elsevier, 1992.
  • Cengel YA. Heat Transfer: A Practical Approach. 2nd ed. Boston, USA, McGraw-Hill, 2002.
  • Hassan Beygi SR, Aghbashlo M. Kianmehr MH, Massah J. “Drying characteristics of walnut (Juglans regia L,) during convection drying”. International Agrophysics, 23(2), 129-135, 2009.
  • Kashaninnejad M, Mortazavi A, Safekordi A, Tabil LG. “Thin-layer characteristics and modeling of pistachionuts”. Journal of Food Engineering, 78, 98-108, 2007.
  • Goyal RK, Kingsly ARP, Mainkanthan MR, Ilyas SM. “Mathematical modeling of thin- layer drying kinetics of plum in a tunnel dryer”. Jourrnal of Food Engineering, 79(1), 176-180, 2007.
  • Pangavhane DR, Sawhney PN, Sarsavadia PN. “Effect of various dipping pretreatments on drying kinetics of thompson seedless grapes”. Journal of Food Engineering, 39, 211-216, 1999.
  • Doymaz I. “Experimental study on drying of pear slices in a convective dryer”. International Journal of Food Science and Technology, 48, 1909-1915, 2013.
  • Dissa AO, Desmorieux H, Savadogo PW, Segda BG, Koulidiati J. “Shirinkage porosity abd density behaviour during convective drying of spirlulina”. Journal of Food Engineering, 97(3), 410-418, 2010.
  • Moffat RJ. “Describing the uncertainties in experimental results”. Experimental Thermal and Fluid Science, 1(1), 3-17, 1988.
  • Akpınar EK. “Deneysel çalışmalardaki hata analizine bir örnek: Kurutma deneylerindeki hata analizi”, Mühendis ve Makine, 46(540), 41-48, 2005.
  • Bart-Plange A, Addo A, Ofori H, Asare V. “Thermal properties of gros michel banana grown in Ghana”. ARPN Journal of Engineering and Applied Sciences, 7(4), 478-484, 2012.
  • Mercali GD, Tessaro IC, Norena CPZ, Marczak LDF. “Mass transfer kinetics during osmotic dehydration of bananas (Musa sapientum, shum.)”. International Journal of Food Science and Technology, 45(11), 2281-2289, 2010.
  • Afolabi TJ, Agarry SE. “Mathematical modelling and simulation of the mass and heat transfer of batch convective air drying of tropical fruits”. Chemical and Process Engineering Research, 23, 9-19, 2014.
  • Izli N, Isik E. “Color and microstructure properties of tomatoes dried by microwave, convective, and microwave-convective methods”. International Journal of Food Properties, 18, 241-249, 2015.
  • Seyedabadi E, Khojastehpour M, Abbaspour-Fard MH. “Convective drying simulation of banana slabs considering non-isotropic shrinkage using FEM with the Arbitrary Lagrangian-Eulerian method”. International Journal of Food Properties, 20, 36-49, 2017.
  • Comsol Multiphysics 5.3. “Heat Transfer Model Library”. Heat Transfer Module User’s Guide, USA, 2017.
  • Izli N, Isik E. “Effect of Different Drying Methods on Drying Characteristics, Colour and Microstructure Properties of Barbunia Bean (Phaseolus vulgaris L.)”. Journal of Agricultural Faculty of Gaziosmanpasa University, 33(2), 79-88, 2016.
  • Pagliarini E, Vernile M, Peri C. “Kinetics study on color changes in milk due to heat”. Journal of Food Science, 55(6), 1766-1767, 1990.
  • Zogzas NP, Maroulis ZB, Marinos-Kouris D. “Moisture diffusivity data compilation in foodstuffs”. Drying Technology, 14, 2225-2253, 1996.
  • Liu G, Chen J, Liu M, Wan X. “International Conference on Advances in Computational Modeling and Simulation Shrinkage, porosity and density behaviour during convective drying of bio-porous material”. Procedia Engineering, 31, 634-640, 2012.
There are 43 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Research Article
Authors

Burak Türkan This is me

Akın Burak Etemoğlu This is me

Publication Date August 20, 2020
Published in Issue Year 2020 Volume: 26 Issue: 4

Cite

APA Türkan, B., & Etemoğlu, A. B. (2020). Experimental and theoretical investigation of drying kinetics of banana slices. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, 26(4), 643-653.
AMA Türkan B, Etemoğlu AB. Experimental and theoretical investigation of drying kinetics of banana slices. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. August 2020;26(4):643-653.
Chicago Türkan, Burak, and Akın Burak Etemoğlu. “Experimental and Theoretical Investigation of Drying Kinetics of Banana Slices”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 26, no. 4 (August 2020): 643-53.
EndNote Türkan B, Etemoğlu AB (August 1, 2020) Experimental and theoretical investigation of drying kinetics of banana slices. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 26 4 643–653.
IEEE B. Türkan and A. B. Etemoğlu, “Experimental and theoretical investigation of drying kinetics of banana slices”, Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, vol. 26, no. 4, pp. 643–653, 2020.
ISNAD Türkan, Burak - Etemoğlu, Akın Burak. “Experimental and Theoretical Investigation of Drying Kinetics of Banana Slices”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 26/4 (August 2020), 643-653.
JAMA Türkan B, Etemoğlu AB. Experimental and theoretical investigation of drying kinetics of banana slices. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. 2020;26:643–653.
MLA Türkan, Burak and Akın Burak Etemoğlu. “Experimental and Theoretical Investigation of Drying Kinetics of Banana Slices”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, vol. 26, no. 4, 2020, pp. 643-5.
Vancouver Türkan B, Etemoğlu AB. Experimental and theoretical investigation of drying kinetics of banana slices. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. 2020;26(4):643-5.





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