MATHEMATICAL MODELS TO DETERMINE OF THIN LAYER DRYING KINETIC OF GINGER SLICES

Year 2018, Volume: 8 Issue: 2, 110 - 123, 29.12.2018

Ebru Akpınar Seda Demirci

https://doi.org/10.36222/ejt.417265

Cited By: 4

Abstract

In the present work, the effects of some parametric
values on the thin layer drying process of ginger slices were investigated.
Drying was done in the laboratory by using cyclone type convective dryer.  The drying air temperature was varied as 40,
50, 60 and 70 ˚C and the air velocity is 0.8, 1.5 and 3 m/s. All drying
experiments had only falling rate period. The drying data were fitted to the
twelve mathematical models and performance of these models was investigated by
comparing the determination of coefficient (R2), reduced chi-square (χ2) and
root mean square error (RMSE) between the observed and predicted moisture
ratios. Among these models, drying model developed by Midilli and Kucuk model
showed good agreement with the data obtained from the experiments.

Keywords

Drying, ginger, Thin layer drying models

References

• [1] Nema, P. K., Mohapatra, D., Daniel, A., Mishra, S., Modeling Pulse Microwave Drying Kinetics of Ginger (Zingiber officinale R.), Journal of Food Research and Technology, 1(2) (2013), pp.46-58.
• [2] Yilbas, B.S., Hussain, M.M., Dincer, I., Heat and Moisture Diffusion in Slab Products to Convective Boundary Condition, Heat Mass Transf., 39 (2003), pp.471–476.
• [3] Midilli, A., Kucuk, H., Yapar, Z., A New Model for Single Layer Drying, Drying Technology, 20(7) (2002), pp.1503-1513.
• [4] Panchariya, P.C., Popovic. D., Sharma, A.L., Thin-layer Modelling of Black Tea Drying Process, J Food Eng. 52 (2002), pp.349–357. doi: 10.1016/S0260-8774(01)00126-1.
• [5] Demirtas, C., Ayhan, T., Kaygusuz, K., Drying Behavior of Hazelnuts, J Sci Food Agric., 76 (1998), pp.559–564. doi: 10.1002/(SICI)1097-0010(199804)
• [6] Ece, M.C., Cihan, A., A Liquid Diffusion Model for Drying Rough Rice, Trans Am Soc Agric Eng., 36 (1993), pp.837–840.
• [7] Ozdemir, M., Devres, Y.O., The Thin Layer Drying Characteristics of Hazelnuts During Roasting, J Food Eng., 42 (1999), pp.225–233. doi: 10.1016/S0260-8774(99)00126-0.
• [8] Wang, C.Y., Singh, R.P., A Single Layer Drying Equation for Rough Rice, ASAE Paper no: 3001 (1978).
• [9] Kumar, N., Sarkar, B.C., Sharma, H.K., Mathematical Modelling of Thin Layer Hot Air Drying of Carrot Pomace, J Food Sci Technol., 49(1) (2012), pp.33–41.
• [10] Silva, W.P., Silva, C.M.D.P.S., Gama, F.J.A., Gomes, J.P., Mathematical Models to Describe Thin-Layer Drying and to Determine Drying Rate of Whole Bananas, Journal of the Saudi Society of Agricultural Sciences, 13 (2014), pp.67–74.
• [11] Parlak, N., Fluidized Bed Drying Characteristics and Modeling of Ginger (zingiber officinale) slices, Heat Mass Transfer, 51 (2015), pp.1085–1095.
• [12] Schweiggert, U., Hofmann, S., Reichel, M., Schieber, A., Carle, R., Enzyme-assisted Liquefaction of Ginger Rhizomes (Zingiber officinale Rosc.) for the Production of Spray-Dried and Paste-Like Ginger Condiments, Journal of Food Engineering, 84 (2008), pp.28–38.
• [13] Singhanat, P., Saentaweesuk, S., Effect of Two Stage, Tray And Heat Pump Assisted-Dehumidified Drying on Drying Characteristics and Qualities of Dried Ginger, Food and Bioproducts Processing, 89 (2011), pp.429–437.
• [14] Eze, J.I., Agbo, K., Comparative Studies of Sun and Solar Drying of Peeled and Unpeeled Ginger, Am. J. Sci. Ind. Res, 2(2) (2011), pp.136-143.
• [15] Prasad, J., Vijay, V.K., Experimental Studies on Drying of Zingiber Officinale, Curcuma longa l. and Tinospora Cordifolia in Solar-Biomass Hybrid Drier, Renewable Energy, 30 (2005), pp.2097–2109.
• [16] Thorat, I.D., Mohapatra, D., Sutar, R.F., Kapdi, S.S., Jagtap, D.D., Mathematical Modeling and Experimental Study on Thin-Layer Vacuum Drying of Ginger (Zingiber Officinale R.) Slices, Food Bioprocess Technol, DOI 10.1007/s11947-010-0429-y, 2010.
• [17] Akpinar, E.K., Toraman, S., Estimation of The Moisture Diffusivity and Activation Energy in Thin Layer Drying of Ginger Slices, World Academy of Science, Engineering and Technology, 78 (2013) 2013-06-27.
• [18] Akpinar, E.K., Toraman, S., Determination of Drying Kinetics and Convective Heat Transfer Coefficients of Ginger Slices, Heat Mass Transfer, 2015, DOI 10.1007/s00231-015-1729-6.
• [19] Akpinar, E.K. The Development of a Cyclone Type Dryer for Agricultural Products, PhD Thesis, Firat University, Elazig, Turkey, 2002.
• [20] Akpinar, E., Midilli, A., Bicer, Y., Single Layer Drying Behavior of Potato Slices in a Convective Cyclone Dryer and Mathematical Modeling, Energy Conversion and Management, 44 (2003), pp.1689-1705.
• [21] Doymaz, I., Evaluation of Some Thin-Layer Drying Models of Persimmon Slices (Diospyros kaki L.), Energy Conversion and Management, 56 (2012), pp.199-205.
• [22] Mujumdar, A.S., Handbook of Industrial Drying, Marcel Dekker, New York, 1987.
• [23] Diamante, L.M., Munro, P.A., Mathematical Modelling of Thin Layer Solar Drying of Sweet Potato Slices, Solar Energy, 51 (1993), pp.271-276.
• [24] Overhults, D.G., White, H.E., Hamilton, H.E., Ross, I.J., Drying Soybeans with Heated Air, Transactions of the ASAE, 16 (1973), pp.112-113.
• [25] Zhang, Q., Litchfield, J.B., An Optimization of Intermittent Corn Drying in A Laboratory Scale Thin Layer Dryer, Drying Technology, 9 (1991), pp.383-395.
• [26] Yaldız, O., Ertekin, C., Thin Layer Solar Drying of Some Vegetables, Drying Technology, 19 (2001), pp.583-596.
• [27] Henderson, S.M., Progress in Developing The Thin Layer Drying Equation, Transactions of the ASAE, 17 (1974), pp.1167-1172.
• [28] Sharaf-Eldeen, Y.I., Blaisdell, J.L., Hamdy, M.Y., A Model For Ear Corn Drying, Transaction of the ASAE, 23 (1980), pp.1261-1271.
• [29] Karathanos, V.T., Determination of Water Content of Dried Fruits by Drying Kinetics, Journal of Food Engineering, 39 (1999), pp.337-344.
• [30] Verma, L.R., Bucklin, R.A., Endan, J.B., Wratten, F.T., Effects of Drying Air Parameters on Rice Drying Models, Transaction of the ASAE, 28 (1985), pp.296-301.
• [31] Akpinar, E.K., Determination of Suitable Thin Layer Drying Curve Model For Some Vegetables And Fruits, Journal of Food Engineering, 73(1) (2006), pp.75-84.
• [32] Gunhan, T., Demir, V., Hancioglu, E., Hepbasli, A., Mathematical Modelling of Drying of Bay Leaves, Energy Conversion and Management, 46(11-12) (2005), pp.1667-1679.