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Drying Technology
An International Journal
Volume 33, 2015 - Issue 14
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Regular Articles

Drying and Shrinkage Kinetics of Solid Waste of Olive Oil Processing

Athanasia M. GoulaDepartment of Food Science and Technology, School of Agriculture, Natural Environment and Forestry, Aristotle University of Thessaloniki, Thessaloniki, GreeceCorrespondence[email protected]
,
Athanasios N. ChasekioglouDepartment of Food Science and Technology, School of Agriculture, Natural Environment and Forestry, Aristotle University of Thessaloniki, Thessaloniki, Greece
&
Harris N. LazaridesDepartment of Food Science and Technology, School of Agriculture, Natural Environment and Forestry, Aristotle University of Thessaloniki, Thessaloniki, Greece
Pages 1728-1738 | Published online: 20 Jul 2015

REFERENCES

  • Niaounakis, M.; Halvadakis, C.P. Olive Processing Waste Treatment-Literature Review and Patent Survey, Elsevier Applied Science: London, 2006; 250–255.
  • Milczarek, R.R.; Dai, A.A.; Otoni, C.G.; McHugh, T.H. Effect of shrinkage on isothermal drying behavior of 2-phase olive mill waste. Journal of Food Engineering 2011, 103, 434–441.
  • Doymaz, I.; Görel, Ö.; Akgün, N.A. Drying characteristics of the solid by-product of olive oil extraction. Biosystems Engineering 2004, 88(2), 213–219.
  • Akgün, N.A.; Doymaz, I. Modelling of olive cake thin-layer drying process. Journal of Food Engineering 2005, 68, 455–461.
  • Arjona, R.; Ollero, P.; Vidal, F. Automation of an olive waste industrial rotary dryer. Journal of Food Engineering 2005, 68, 239–247.
  • Krokida, M.K.; Maroulis, Z.B.; Kremalis, C. Process design of rotary dryers for olive cake. Drying Technology 2002, 20, 771–788.
  • Göğüş, F.; Maskan, M. Air drying characteristics of solid waste (pomace) of olive oil processing. Journal of Food Engineering 2006, 72, 378–382.
  • Jumah, R.; Al-Kteimat, E.; Al-Hamad, A.; Telfah, E. Constant and intermittent drying characteristics of olive cake. Drying Technology 2007, 25, 1421–1426.
  • Marmo, L. Low temperature drying of pomace in spout and spout-fluid beds. Journal of Food Engineering 2007, 79, 1179–1190.
  • Liébanes, M.D.; Aragón, J.M.; Palancar, M.C.; Arévalo, G.; Jiménez, D. Fluidized bed drying of 2-phase olive mill by-products. Drying Technology 2006, 24, 1609–1618.
  • Torrecilla, J.S.; Aragón, J.M.; Palancar, M.C. Improvement of fluidized-bed dryers for drying solid waste (olive pomace) in olive oil mills. European Journal of Lipid Science and Technology 2006, 108, 913–924.
  • Meziane, S. Drying kinetics of olive pomace in a fluidized bed dryer. Energy Conversion and Management 2011, 52, 1644–1649.
  • Celma, A.R.; Cuadros, F. Energy and exergy analyses of OMW solar drying process. Renewable Energy 2009, 34, 660–666.
  • Montero, I.; Miranda, T.; Arranz, J.I.; Rojas, C.V. Thin layer drying kinetics of by-products from olive oil processing. International Journal of Molecular Sciences 2011, 12, 7885–7897.
  • Göğüş, F.; Maskan, M. Drying of olive pomace by a combined microwave-fan assisted convection oven. Nahrung/Food 2001, 45, 129–132.
  • Arjona, R.; Garcia, A.; Ollero, P. The drying of alpeorujo, a waste product of the olive mill industry. Journal of Food Engineering 1999, 41, 229–234.
  • Celma, A.R.; Rojas, S.; Lopez-Rodríguez, F. Mathematical modelling of thin-layer infrared drying of wet olive husk. Chemical Engineering and Processing 2008, 47, 1810–1818.
  • Goula, A.M.; Adamopoulos, K.G. A method for preparing a novel solid product from olive mill wastewater: Wastewater characterization and product recovery. Drying Technology 2013, 31, 339–349.
  • Perez, N.E.; Schmalko, M.E. Convective drying of pumpkin: Influence of pretreatment and drying temperature. Journal of Food Process Engineering 2009, 32, 88–103.
  • Bingol, G.; Pan, Z.; Roberts, J.S.; Devres, Y.O.; Balaban, M.O. Mathematical modeling of microwave-assisted convective heating and drying of grapes. International Journal of Food Agricultural and Biological Engineering 2008, 1(2), 46–55.
  • Cihan, A.; Kahveci, K.; Hacihafizoglu, O. Modelling of intermittent drying of thin layer rough rice. Journal of Food Engineering 2007, 79, 293–298.
  • Lee, J.H.; Kim, H.J. Vacuum drying kinetics of Asian white radish (Raphanus sativus L.) slices. LWT: Food Science and Technology 2009, 42, 180–186.
  • Assawarachan, R.; Noomhorm, A. Mathematical models for vacuum-microwave concentration behavior of pineapple juice. Journal of Food Process Engineering 2011, 34, 1485–1505.
  • Karathanos, V.T.; Villalobos, G.; Saravacos, G.D. Comparison of two methods of the estimation of the effective moisture diffusivity of starch materials. Journal of Food Science 1990, 55(1), 218–223.
  • Hsu, K.H. A diffusion model with a concentration-dependent diffusion coefficient for describing water movement in legumes during soaking. Journal of Food Science 1983, 48, 618–622, 645.
  • Guiné, R.P.F.; Ramos, M.A.; Figueiredo, M. Shrinkage characteristics and porosity of pears during drying. Drying Technology 2006, 24(11), 1525–1530.
  • Katekawa, M.E.; Silva, M.A. A review of drying models including shrinkage effects. Drying Technology 2006, 24, 5–20.
  • Nahimana, H.; Zhang, M. Shrinkage and color change during microwave vacuum drying of carrot. Drying Technology 2011, 29(7), 836–847.
  • Ong, S.P.; Law, C.L. Microstructure and optical properties of salak fruit under different drying and pretreatment conditions. Drying Technology 2011, 29(16), 1954–1962.
  • Madiouli, J.; Lecomte, D.; Nganya, T.; Chavez, S.; Sghaier, J.; Sammouda, H. A method for determination of porosity change from shrinkage curves of deformable materials. Drying Technology 2007, 25(4), 621–628.
  • Hosseinpour, S.; Rafiee, S.; Mohtasebi, S.S. Application of image processing to analyze shrinkage and shape changes of shrimp batch during drying. Drying Technology 2011, 29(12), 1416–1438.
  • Maskan, M. Drying, shrinkage and rehydration characteristics of kiwifruits during hot air and microwave drying. Journal of Food Engineering 2001, 48, 177–182.
  • Białobrzewski, I.; Markowski, M. Mass transfer in the celery slice: Effects of temperature, moisture content, and density on water diffusivity. Drying Technology 2004, 22(7), 1777–1789.
  • Ruiz-López, I.I.; García-Alvarado, M.A. Analytical solution for food-drying kinetics considering shrinkage and variable diffusivity. Journal of Food Engineering 2007, 79, 208–216.
  • Wu, L.; Orikasa, T.; Ogawa, Y.; Tagawa, A. Vacuum drying characteristics of eggplants. Journal of Food Engineering 2007, 83, 422–429.
  • Crank, J. The Mathematics of Diffusion; Oxford University Press: Bristol, UK, 1975.
  • Babalis, S.J.; Belessiotis, V.G. Influence of the drying conditions on the drying constants and moisture diffusivity during the thin-layer drying of figs. Journal of Food Engineering 2004, 65, 449–458.
  • Karathanos, V.T.; Belessiotis, V.G. Sun and artificial air drying kinetics of some agricultural products. Journal of Food Engineering 1997, 31, 35–46.
  • Maskan, M. Microwave/air and microwave/finish drying of banana. Journal of Food Engineering 2000, 44, 71–78.
  • Maskan, M. Kinetics of colour change of kiwifruits during hot air and microwave drying. Journal of Food Engineering 2001, 48, 169–175.
  • Karatas, S.; Esin, A. Determination of moisture diffusivity and behavior of tomato concentrate droplets during drying in air. Drying Technology 1994, 12, 799–822.
  • Szentmarjay, T.; Pallai, E.; Regenyi, Z. Short-time drying of heat-sensitive, biologically active pulps and pastes. Drying Technology 1996, 14(9), 2091–2115.
  • Jumah, R.; Banat, F.; Al-Asheh, S.; Hammad, S. Drying kinetics of tomato paste. International Journal of Food Properties 2004, 7(2), 253–259.
  • Sjoholm, I.; Gekas, V. Apple shrinkage upon drying. Journal of Food Engineering 1995, 25, 123–130.
  • Wang, N.; Brennan, J.G. Changes in structure, density and porosity of potato during dehydration. Journal of Food Engineering 1995, 24, 61–76.
  • Zogzas, N.P.; Maroulis, Z.B.; Marinos-Kouris, D. Moisture diffusivity data compilation in foodstuffs. Drying Technology 1996, 14(10), 225–253.
  • Ozbek, B.; Dadali, G. Thin-layer drying characteristics and modeling of mint leaves undergoing microwave treatment. Journal of Food Engineering 2007, 83(4), 541–549.
  • Bal, L.M.; Kar, A.; Satya, S.; Naik, S.N. Drying kinetics and effective moisture diffusivity of bamboo shoot slices undergoing microwave drying. International Journal of Food Science and Technology 2010, 45(11), 2321–2328.
  • McMinn, W.A.M. Thin-layer modeling of the convective, microwave, microwave-convective and microwave-vacuum drying of lactose power. Journal of Food Engineering 2006, 72, 113–123.
  • Sui, Y.; Yang, J.; Ye, Q.; Li, H.; Wang, H. Infrared, convective, and sequential infrared and convective drying of wine grape pomace. Drying Technology 2014, 32, 686–694.
  • Toğrul, H. Simple modeling of infrared drying of fresh apple slices. Journal of Food Engineering 2005, 71(3), 311–323.
  • Puente-Díaz, L.; Ah-Hen, K.; Vega-Gálvez A.; Lemus-Mondacace, R.; Di Scalaf, K. Combined infrared-convective drying of Murta (Ugni molinae Turcz) berries: Kinetic modeling and quality assessment. Drying Technology 2013, 31(3), 329–338.
  • Toğrul, I.T.; Pehlivan, D. Modelling of drying kinetics of single apricot. Journal of Food Engineering 2003, 58, 23–32.
  • Sacilik, A.; Elicin, A.K.; Unal, G. Drying kinetics of Uryani plum in a convective hot-air dryer. Journal of Food Engineering 2006, 76, 362–368.
  • Wang, J.; Sun, J.; Liao, X.; Chen, F.; Zhao, G.; Wu, J. Mathematical modeling on hot air drying of thin layer apple pomace. Food Research International 2007, 40, 39–46.
  • Doymaz, I. Convective drying kinetics of strawberry. Chemical Engineering and Processing 2008, 47, 914–919.
  • Mohammadi, A.; Rafiee, S.; Keyhani, A.; Emam-Djomeh, Z. Moisture content modeling of sliced kiwifruit (cv. Hayward) during drying. Pakistan Journal of Nutrition 2009, 8, 78–82.
  • Byler, R.K.; Anderson, C.R.; Brook, R.C. Statistical methods in thin layer parboiled rice-drying models. Transactions of ASAE 1987, 30, 533–538.
  • Shivhare, U.S.; Gupta, A.; Bawa, A.S.; Gupta, P. Drying characteristics and product quality of okra. Drying Technology 2000, 18, 409–419.
  • Tan, D.L.S.; Miyamoto, K.; Ishibashi, K.; Matsuda, K.; Satow, T. Thin-layer drying of sweet potato chips and pressed grates. Transactions of ASAE 2001, 44, 669–674.
  • Falade, K.O.; Solademi, O.J. Modelling of air drying of fresh and blanched sweet potato slices. International Journal of Food Science and Technology 2010, 45, 278–288.

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