DRYING CHARACTERISTICS OF BLUE MUSSELS BY TRADITIONAL METHODS
Original scientific paper
DOI:
https://doi.org/10.2298/CICEQ200920046KKeywords:
activation energy, blue mussel, effective moisture diffusivity, traditional drying, colour changeAbstract
In this study, characteristic drying behaviour and kinetics of blue mussels, which were dried with the traditional methods of cabinet-type, oven and vacuum oven drying, are studied. In a cabinet-type dryer there is air flow while in an oven dryer there is no air flow. In each method, Deff and Ea are calculated and colour analyses are done. According to the results, mussels are dried between 270-120 min, 570-300 min and 390-210 min, for the cabinet-type dryer, oven and vacuum oven, respectively. In each method, the Midilli and Kucuk model best fits experimental data with high coefficient of determination (R2) between 0.9995-0.9984, 0.9996-0.9993, and 0.9997-0.9993 for cabinet-type, oven and vacuum oven dryer, respectively. Deff values were calculated between 1.89-4.94´10-9 m2/s, 0.89-1.63´10-9 m2/s and 1.17-2.28´10-9 m2/s for cabinet-type dryer, oven and vacuum oven methods, respectively. Also, Ea values were found to be 46.90, 29.57 and 32.85 kJ/mol, for cabinet-type dryer, oven and vacuum oven methods, respectively. The colour change was slightly affected by the change in the temperature.
References
P. Sterry, Collins Complete Guide to British Wildlife, HarperCollins, UK, 2008
FAO, Food and Agriculture Organization of the United Nations Fishery and Aquaculture Department, 2017
R.W. Butler, The Great Blue Heron, A Natural History and Eceology of a Seashore Sentinel, UBCPress, ABD, 1997
D. Pleissner, N.T. Eriksen, K. Lundgreen, H.U. Riisgard, ISRN Zoology (2012) 902152
S. Almonacid, J. Bustamante, R. Simpson, M. Pinto, in Processing and Impact on Active Components in Food, V. Preedy, Academic Press, Cambridge, MA, 2015, p.699
M.U. Hasan, A.U. Malik, S. Ali, A. Imtiaz, A. Munir, W. Amjad, R. Anwar, J. Food Process. Preserv. 43 (2019) e14280
I. Doymaz, A.S. Kipcak, S. Piskin, Czech J. Food Sci. 33 (2015a) 83–90
İ. Doymaz, A.S. Kipcak, S. Piskin, Czech J. Food Sci. 33 (2015b) 367-376
A.S. Kipcak, Res. Chem. Intermediat. 43 (2017) 1429-1445
M. Başlar, M. Kılıçlı, O.S. Toker, O. Sağdıç, M. Arici, Innov. Food Sci. Emerging Technol. 26 (2014) 182–190
T. Ahmat, M. Barka, A.W. Aregba, D. Bruneau, J. Food Process. Preserv. 39 (2015) 2581-2595
S. Simal, A. Femenia, P. Garcia-Pascual, C. Rossello, J. Food Eng. 58 (2003) 193-199
B.A. Ayanwale, O.B. Ocheme, O.O. Oloyede, Pakistan J. Nutr. 6 (2007) 370-374
A. Natharanakule, W. Kraiwanichkul, S. Soponronnarit, J. Food Eng. 80 (2007) 1023-1030
C.L. Hii, C.E. Itam, S.P. Ong, Drying Technol. 32 (2014) 1304-1309
P. Sa-adchom, T. Swasdisevi, A. Nathakaranakule, S. Soponronnarit, J. Food Eng. 104 (2011) 499-507
A. Vega-Gálvez, A. Ayala-Aponte, E. Notte, L. De La Fuente, R. Lemus-Mondaca, Drying Technol. 26 (2008) 1610-1616
A.S. Kipcak, I. Doymaz, E.M. Derun, Chem. Ind. Chem. Eng. Q. 25 (2019) 1-10
G. Tribuzi, J.B. Laurindo, Int. J. Food Eng. 12 (2016) 1-8
D. Jain, P.B. Pathare, J. Food Eng. 78 (2007) 1315-1319
T. Mohd Rozainee, P.S. Ng, in Proceedings of World Engineering Congress 2010 - Conference on Advanced Processes and Materials, Sarawak, Malaysia, 2-5 (2010), p. 41
AOAC, Association of Official Analytical Chemists), Official Methods of Analysis of AOAC International, 16th ed., AOAC International, Rockville, MD, 1995
A.S. Kipcak, İ. Doymaz, Chem. Ind. Chem. Eng. Q. 26 (2020) 203-212
A.S. Kipcak, O. İsmail, J. Food Sci. Technol. (2020), doi: 10.1007/s13197-020-04540-0
F. Sarpong, C. Zho, J. Bai1, L.P. Amenorfe, M.K. Golly, H. Ma, Food Sci. Biotechnol. 28 (2019) 75-85
N.P. Zogzas, Z.B. Maroulis, D. Marinos-Kouris, Drying Technol. 14 (1996) 2225-2253
C.A. Komolafe, I.O. Oluwaleye, A.O.D. Adejumo, M.A. Waheed, S.I. Kuye, Int. J. Heat Technol. 36 (2019) 1262-1267
P. Sa-adchom, T. Swasdisevi, A. Nathakaranakule, S. Soponronnarit, J. Food Eng. 104 (2011) 105-113
J. Akhtar, P.K. More, Int. J. Chem. Stud. 6 (2018) 1590–1597
A. Isik, M. Ozdemir, I. Doymaz, Food Sci. Technol, 39 (2019) 224-231
A. Aksoy, S. Karasu, A. Akcicek, S. Kayacan, Foods 8 (2019) E216.
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