REFERENCES
- D. Velic, M. Planinic, S. Tomas, and M. Bili, Influence of Airflow Velocity on Kinetics of Convection Apple Drying, J. Food Eng., vol. 64, pp. 97–102, 2004.
- H.F. Oztop, and E.K. Akpinar. Numerical and Experimental Analysis of Moisture Transfer for Convective Drying of Some Products, Int. Commun. Heat Mass Transfer, vol. 35, no. 2, pp. 169–177, 2008.
- E. Akpinar, A. Midilli, and Y. Bicer, Single Layer Drying Behavior of Potato Slices in a Convective Cyclone Dryer and Mathematical Modeling, Energy Convers. Manag., vol. 44, no. 10, pp. 1689–1705, 2003.
- E.K. Akpinar, Evaluation of Convective Heat Transfer Coefficient of Various Crops in Cyclone Type Dryer, Energy Convers. Manag., vol. 46, pp. 2439–2454, 2005.
- N. Wang, and J.G. Brennan, A Mathematical Model of Simultaneous Heat and Moisture Transfer during Drying of Potato, J. Food Eng., vol. 24, pp. 47–60, 1993.
- N. Wang, and J.G. Brennan. Changes in Structure, Density and Porosity of Potato During Dehydration, J. Food Eng., vol. 24, pp. 61–76, 1993.
- L. Hassini, S. Azzouz, and R. Peczalski. Estimation of Potato Moisture Diffusivity From Convective Drying Kinetics with Correction for Shrinkage, J. Food Eng., vol. 79, no. 1, pp. 47–56, 2007.
- S. Simal, S. Rossello, A. Berna, and A. Mulet, Drying of Shrinking Cylinder-shaped Bodies. J. Food Eng., vol. 37, pp. 423–435, 1998.
- S.K. Dutta, V.K. Nema, and R.K. Bharadwaj, Drying Behavior of Spherical Grains, Int. J. Heat Mass Transfer, vol. 31, no. 4, pp. 855–861, 1998.
- J.A. Hernandez, G. Pavon, and M.A. Garcia, Analytical Solution of Mass Transfer Equation Considering Shrinkage for Modeling Food-Drying Kinetics, J. Food Eng., vol. 45, pp. 1–10, 2000.
- S. Mingheng, and W. Xin, Investigation of Moisture Transfer Mechanism in Porous Media During a Rapid Drying Process, Heat Transfer Asian Res., vol. 30, no. 1, pp. 22–27.
- H. Younosuke, H. Younosuke, and K. Hiroaki, Prediction of Temperature and Moisture Content Profiles of Paper in a Drying Process, Heat Transfer Asian Res., vol. 30, no. 2, pp. 77–94, 2001.
- S. Simal and C. Rossello, Heat and Mass Transfer Model for Potato Drying, Chem. Eng. Sci., vol. 49, no. 22, pp. 3739–3744, 1994.
- A. Kaya, and O. Aydın, Numerical Modeling of Forced Convection Drying of Cylindrical Moist Objects, Numer. Heat Transfer Part-A, vol. 51, pp. 843–854, 2007.
- A. Kaya, O. Aydın, and I. Dincer, Numerical Modeling of Heat and Mass Transfer During Forced Convection Drying of Rectangular Moist Objects, Int. J. Heat Mass Transfer, vol. 49, pp. 3094–3103, 2006.
- A. Kaya, O. Aydın, and I. Dincer I, Heat and Mass Transfer Modeling of Recirculating Flows During Air Drying of Moist Objects for Various Dryer Configurations, Numer. Heat Transfer, Part-A, vol. 53, pp. 18–34, 2008.
- M.M. Hussain, and I. Dincer, Two-Dimensional Heat and Moisture Transfer Analysis of a Cylindrical Moist Object Subjected to Drying: A Finite-Difference Approach, Int. J. Heat Mass Transfer, vol. 46, pp. 4033–4039, 2003.
- M.M. Hussain, and I. Dincer, Numerical Simulation of Two Dimensional Heat and Moisture Transfer During Drying of a Rectangular Object, Numer. Heat Transfer, Part-A, vol. 43, pp. 867–878, 2003.
- K. Murugesan, K.N. Seetharamu, and P.A.A. Narayana, A One Dimensional Analysis of Convective Drying of Porous Materials, Heat Mass Transfer, vol. 32, pp. 81–88, 1996.
- P. Talukdar, O. Stephen, F. Osanyintola, and CareyJ. Simonson. An Experimental Data Set for Benchmarking 1-D, Transient Heat and Moisture Transfer Models of Hygroscopic Building Materials. Part I: Experimental Facility and Material Property Data. Int. J. Heat Mass Transfer, vol. 50, pp. 4527–4539, 2007.
- V.P. Chandramohan, and P. Talukdar, Three Dimensional Numerical Modeling of Simultaneous Heat and Moisture Transfer in a Moist Object Subjected to Convective Drying, Int. J. Heat Mass Transfer, vol. 53, pp. 4638–4650, 2010.
- P. Talukdar, F. Osanyintola, O. Stephen, and CareyJ. Simonson. An Experimental Data Set for Benchmarking 1-D, Transient Heat and Moisture Transfer Models of Hygroscopic Building Materials. Part II: Experimental Facility and Material Property Data, Int. J. Heat Mass Transfer, vol. 50, pp. 4915–4926, 2007.
- K. Dworeckia, A. Slezak, and B.O. Wasik, Evolution of Concentration Field in a Membrane System, J. Biochem. Biophys. Methods, vol. 62, pp. 153–162, 2005.
- V.P. Chandramohan, and P. Talukdar, Design of an Experimental Setup for Convective Drying: Experimental Studies at Different Drying Temperature, Heat Mass Transfer, vol. 49, no. 1, pp. 31–40, 2013.
- P. Talukdar, F.V. Issendorff, and D. Trimis, Conduction–Radiation Interaction in 3-D Irregular Enclosures Using the Finite Volume Method, Heat Mass Transfer, vol. 44, pp. 695–704, 2008
- F.P. Incropera, and D.V. DeWitt. Fundamental of Heat and Mass Transfer, 5th ed., John Wiley & Sons (Asia) PTE. Ltd., River Street, Hoboken, NJ, 2007.
- A.S. Mujumdar, Handbook of Industrial Drying, 3rd ed., CRC press, Taylor and Francis group, Boca Raton, FL, 2006.
- C. Rossello, J. Canellas, S. Simal, and A. Berna, Simple mathematical model to predict the drying rate of potatoes, J. Agric. Food Chem., vol. 40, pp. 2374–2378, 1992.