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2018 | 68 | 3 |

Tytuł artykułu

Temperature effect on rheological behavior of Portuguese honeys.

Treść / Zawartość

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
In the present work the temperature effect on rheological properties of Portuguese honeys was studied for the fi rst time. Two unifl oral honeys – heather and rosemary – and a polyflower honey were analyzed. All honeys showed flow independence over time and behaved as Newtonian fluids at the studied temperature and shear rate ranges. For all honeys it was found that the viscosity decreased with temperature and the rosemary honey was the one that always presented the lowest viscosity at 30°C (6120 mPa·s), 50°C (603 mPa·s) and 70°C (145 mPa·s). The temperature dependence of viscosity was well described by the T B A K equation. Nevertheless, good regression coefficients were also obtained when fitting the experimental data to the Arrhenius model, showing the rosemary honey to be less temperature sensitive. The results obtained in this study are of great interest to beekeepers and industrials that handle and prepare eatable honey-based products because they will be better informed about the best type of honey to use.

Wydawca

-

Rocznik

Tom

68

Numer

3

Opis fizyczny

p.217-222,fig.,ref.

Twórcy

autor
  • ESTIG – Polytechnic Institute of Braganca, Campus de St Apolonia, Apartado 1172, 5300–253 Braganca, Portugal
autor
  • Centro de Investigacao de Montanha (CIMO)/School of Agriculture, Polytechnic Institute of Braganca, Campus de St Apolonia, 5300–253 Braganca, Portugal
autor
  • Centro de Investigacao de Montanha (CIMO)/School of Agriculture, Polytechnic Institute of Braganca, Campus de St Apolonia, 5300–253 Braganca, Portugal
autor
  • Centro de Investigacao de Montanha (CIMO)/School of Agriculture, Polytechnic Institute of Braganca, Campus de St Apolonia, 5300–253 Braganca, Portugal
  • Centro de Investigacao de Montanha (CIMO)/School of Agriculture, Polytechnic Institute of Braganca, Campus de St Apolonia, 5300–253 Braganca, Portugal

Bibliografia

  • 1. Abu-Jdayil B., Ghzawi A.A.-M., Al-Malah K.I.M., Zaitoun S., Heat effect on rheology of light- and dark-colored honey. J. Food Eng., 2002, 51, 33–38.
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  • 3. Al-Malah K., Abu-Jdayil B., Zaitoun S., Ghzawi A.A.M., Application of WLF and Arrhenius kinetics to rheology of selected dark-colored honey. J. Food Process., 2001, 24, 341–357.
  • 4. Bhandari B., D’Arcy B., Kelly C., Rheology and crystallization kinetics of honey: present status. Int. J. Food Prop., 1999a, 2, 217–226.
  • 5. Bhandari B., D’Arcy B., Chow S., Rheology of selected Australian honeys. J. Food Eng., 1999b, 41, 65–68.
  • 6. Boussaid A., Chouaibi M., Rezig L., Missaoui R., Donsí F., Ferrari G., Hamdi S., Physicochemical, rheological, and thermal properties of six types of honey from various floral origins in Tunisia. Int. J. Food Prop., 2015, 18, 2624–2637.
  • 7. Cohen I., Weihs D., Rheology and microrheology of natural and reduced-calorie Israeli honeys as a model for high-viscosity Newtonian liquids. J. Food Eng., 2010, 100, 366–371.
  • 8. Gómez-Díaz D., Navaza J.M., Quintáns-Riveiro L.C., Rheological behaviour of Galician honeys. Eur. Food Res. Technol., 2006, 222, 439–442.
  • 9. Gómez-Díaz D., Navaza J.M., Quintáns-Riveiro L.C., Effect of temperature on the viscosity of honey. Int. J. Food Prop., 2009, 12, 396–404.
  • 10. Junzheng P., Changying J., General rheological model for natural honeys in China. J. Food Eng.,1998, 36, 165–168.
  • 11. Juszczak L., Fortuna T., Rheology of selected Polish honeys. J. Food Eng., 2006, 75, 43–49.
  • 12. Kabbani D., Sepulcre F., Wedekind J., Ultrasound-assisted liquefaction of rosemary honey: Influence on rheology and crystal content. J. Food Eng., 2011, 107, 173–178.
  • 13. Kayacier A., Karaman S., Rheological and some physicochemical characteristics of selected Turkish honeys. J. Texture Stud., 2008, 39, 17–27.
  • 14. Kędzierska-Matysek M., Florek M., Wolanciuk A., Skałecki P., Litwińczuk A., Characterisation of viscosity, colour, 5-hydroxymethylfurfural content and diastase activity in raw rape honey (Brassica napus) at different temperatures. J. Food Sci. Technol., 2016, 53, 2092–2098.
  • 15. Law-Decree No. 214/2003 of 18th September. Diário da República – I Série-A, N.º 216 – 18 de Setembro de 2003, pp. 6057–6060 (in Portuguese).
  • 16. Lazaridou A., Biliaderis C.G., Bacandritsos N., Sabatini A.G., Composition, thermal and rheological behaviour of selected Greek honeys. J. Food Eng., 2004, 64, 9–21.
  • 17. Mora-Escobedo R., Moguel-Ordóñez Y., Jaramillo-Flores M.E., Gutiérrez-López G.F., The composition, rheological and thermal properties of Tajonal (Viguiera dentata) Mexican honey. Int. J. Food Prop., 2006, 9, 299–316.
  • 18. Mossel B., Bhandari B., D’Arcy B., Caffi n N., Determination of viscosity of some Australian honeys based on composition. Int. J. Food Prop., 2003, 6, 87–97.
  • 19. Oh J.-H., Yoo B., Effect of temperature on the relationship between moisture content and dynamic rheological properties of Korean honey. Food Sci. Biotechnol., 2011, 20, 261–265.
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  • 21. Smanalieva J., Senge B., Analytical and rheological investigations into selected unifl oral German honey. Eur. Food Res. Tecnhol., 2009, 229, 107–113.
  • 22. Sopade P.A., Halley P.J., D’Arcy B.R., Bhandary B., Caffi n N., Dynamic and steady-state rheology of Australian honeys at subzero temperatures. J. Food Process. Eng., 2004, 27, 284–309.
  • 23. Tavakolipour H., Ashtari A.K., Rheology of selected Persian honeys. Int. J. Food Eng., 2010. 6(3), Article number 16 (DOI: 10.2202/1556–3758.1799).
  • 24. Weihs D., Effects of sugar content and temperature on rheology and microrheology of Israeli honey. 2008, in: AIP Conference Proceedings, XV International Congress on Rheology: The Society of Rheology 80th Annual Meeting (eds. A. Co, G.L. Leal). Monterey, USA, pp. 1238–1240.
  • 25. Witczak M., Juszczak L., Galkowska D., Non-Newtonian behaviour of heather honey. J. Food Eng., 2011, 104, 532–537.
  • 26. Yoo B., Effect of temperature on dynamic rheology of Korean honeys. J. Food Eng., 2004, 65, 459–463.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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