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Issue
Korean Journal of Chemical Engineering,
Vol.27, No.5, 1377-1383, 2010
Drying kinetics and effective moisture diffusivity of purslane undergoing microwave heat treatment
Demirhan E, Ozbek B
The effects of microwave drying on moisture content, moisture ratio, drying time and effective moisture diffusivity of purslane leaves (Portulaca oleracea L.) were investigated. By increasing the microwave output power (180-900W) and the sample amounts (25-100 g), the drying time decreased from 43 to 12.5 minutes and increased from 27 to 54 minutes, respectively. To determine the kinetic parameters, the drying data were fitted to various models based on the ratios of the differences between the initial and final moisture contents and equilibrium moisture content versus drying time. Among the models proposed, the semi-empirical Midilli et al. model gave a better fit for all drying conditions applied. By increasing the microwave output power and decreasing the sample amount, the effective moisture diffusivity values ranged from 5.913×10^(-11) to 1.872×10^(-10) m2/s and from 9.889×10^(-11) to 3.292×10^(-11) m2/s, respectively. The activation energy was calculated using an exponential expression based on the Arrhenius equation.
Keywords: Microwave Drying; Purslane Leaves; Drying Kinetic; Activation Energy; Effective Moisture Diffusivity
[References]
  1. Yazici I, Turkan I, Sekmen AH, Demiral T, Environ. Exp.Bot., 61, 49, 2007
  2. Lim YY, Quah EPL, Food Chem., 103(3), 734, 2007
  3. Garti N, Slavin Y, Aserin A, Food Hydrocolloid., 13(2), 145, 1999
  4. Fontana E, Hoeberechts J, Nicola S, Cros V, Palmegiano GB, Peiretti PG, J. Sci. Food Agric., 86, 2417, 2006
  5. Kilic CC, Kukul YS, Anac D, Agr. Water Manage., 95(7), 854, 2008
  6. Barbosa-Canovas GV, Vega-Mercado H, Dehydration of Foods., 1st Ed., Chapman & Hall, New York, 1996
  7. Park KJ, Vohnikova Z, Brod FRP, J. Food Eng., 51(3), 193, 2002
  8. Maskan M, J. Food Eng., 44(2), 71, 2000
  9. Soysal Y, Oztekin S, J. Agric. Eng. Res., 78, 57, 2000
  10. Decareau RV, Microwaves in the Food Processing Industry, 1st Ed., Academic Press, Orlando, FL, 1985
  11. Decareau RV, Encyclopaedia of Food Science and Technology, 3, John Wiley & Sons, USA, 1992
  12. Sharma GP, Prasad S, J. Food Eng., 75(4), 441, 2005
  13. Madamba PS, Driscoll RH, Buckle KA, J. Food Eng., 29(1), 75, 1996
  14. Vazquez G, Chenlo F, Moreira R, Castoyas A, Drying Technol., 17(6), 1095, 1999
  15. Bilbao-Sainz A, Andres C, Chiralt A, Fito P, J. Food Eng., 74(1), 160, 2006
  16. Krokida MK, Maroulis ZB, Saravacos GD, Int. J. Food Sci.Tech., 36(1), 53, 2001
  17. Feng H, Tang J, Cavalieri RP, Drying Technol., 17, 1981, 1999
  18. Walde SG, Balaswamy K, Velu V, Rao DG, J. Food Eng., 55(3), 271, 2002
  19. Kadlec P, Rubecova A, Hinkova A, Kaasova J, Bubnik Z, Pour V, Innov. Food Sci. Emerg., 2(2), 133, 2001
  20. Sumnu G, Turabi E, Oztop M, LWT., 38(5), 549, 2005
  21. Wang J, Xi YS, J. Food Eng., 68(4), 505, 2005
  22. Wang W, Thorat BH, Chen G, Mujumdar AS, Drying Technol., 20(9), 1855, 2002
  23. Stanislawski J, Drying Technol., 23(8), 1711, 2005
  24. Zheng-Wei C, Shi-Ying X, Da-Wen S, Chen W, Drying Technol., 23(5), 1057, 2005
  25. Wang J, Sheng K, LWT., 39(3), 247, 2006
  26. Soysal Y, Biosyst. Eng., 89(2), 167, 2004
  27. Panchariya PC, Popovic D, Sharma AL, J. Food Eng., 52(4), 349, 2002
  28. Temple SJ, Van Boxtel AJB, J. Agric. Eng. Res., 74(2), 203, 1999
  29. Funebo T, Ohlsson T, J. Food Eng., 38(3), 353, 1998
  30. Rodriguez R, Lombrana JI, Kamel M, Elvira C, Drying Technol., 23(9-11), 2197, 2005
  31. McMinn WAM, Food Res. Int., 37, 1041, 2004
  32. McMinn WAM, J. Food Eng., 72(2), 113, 2006
  33. Wang W, Chen G, Drying Technol., 23(9-11), 2147, 2005
  34. McMinn WAM, Khraisheh MAM, Magee TRA, Food Res. Int., 36, 977, 2003
  35. McMinn WAM, Khraisheh MAM, Magee TRA, Food Res. Int., 37, 497, 2004
  36. Xu Y, Min Z, Mujumdar AS, Le-Qun Z, Jin-Cai S, Drying Technol., 22(9), 2201, 2004
  37. Yeo YK, Hwang KS, Yi SC, Kang H, Korean J. Chem. Eng., 21(4), 761, 2004
  38. Choi KB, Park SI, Park YS, Sung SW, Lee DH, Korean J. Chem. Eng., 19(6), 1106, 2002
  39. Yi SC, Moon SK, Korean J. Chem. Eng., 14(2), 141, 1997
  40. Dadali G, Apar DK, Ozbek B, Drying Technol., 25(5), 917, 2007
  41. Dadali G, Demirhan E, Ozbek B, Drying Technol., 25(10), 1703, 2007
  42. Demirhan E, Ozbek B, J. Food Process. Pres., 34, 476, 2010
  43. Pehlivan D, Togrul IT, J. Food Eng., 65(3), 413, 2004
  44. Ozdemir M, Devres YO, J. Food Eng., 42(4), 225, 1999
  45. Midilli A, Kucuk H, Yapar Z, Drying Technol., 20, 1503, 2002
  46. Chen C, Wu PC, J. Agric. Eng. Res., 80, 45, 2001
  47. Ertekin C, Yaldiz E, J. Food Eng., 63, 349, 2004
  48. Akpinar EK, J. Food Eng., 77, 864, 2006
  49. Abe T, Afzal TM, J. Agric. Eng. Res., 67, 289, 1997
  50. Crank J, The mathematics of diffusion (2nd ed.), Oxford, UK, Clarendon Press., 1975
  51. Wang Z, Sun J, Chen F, Liao X, Hu X, J. Food Eng., 80(2), 536, 2007
  52. Dadali G, Apar DK, Ozbek B, Drying Technol., 25(9), 1445, 2007
  53. Kashaninejad M, Tabil LG, Drying Technol., 22(9), 2183, 2004
  54. Gogus F, Maskan M, Drying Technol., 17(4-5), 883, 1999
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