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Vol. 7 No. 1-2 (2008)

Artykuły

The influence of freeze drying parameters on the change of colour coordinates of dried celery leaves

DOI: https://doi.org/10.24326/aspta.2008.1-2.2
Submitted: September 28, 2022
Published: 2008-06-30

Abstract

The aim of this work has been to assess the influence of freeze drying parameters, i.e. the pressure in the drying chamber and temperature of the heating panel of the sublimation dryer on the change of colour coordinates of dried celery leaves. In the research the leaves of Apium graveolens L were used. The drying process was conducted in a freeze dryer with a one-sided contact way of providing heat, in temperature range between 20–70°C and under the pressure of 30 Pa, 63 Pa, 125 Pa, 198 Pa. The measurement of colour was conducted according to the reflective method with the use of spherical spectrofotometer X-Rite 8200. The colour coordinates were marked according to the CIElab system. A significant influence of the temperature of the heating panels and pressure in the drying chamber on the change of parameters L*, a* and b* of dried celery leaves was found. The change of colour was assessed on the basis of the difference in colour saturation (C*) and tone (h*). The smallest difference in colour saturation and tone in comparison to fresh leaves was recorded in dried material kept in the temperature of 20°C on each of the pressure levels. Due to a small range of colour coordinates, the method of freeze drying should be regarded as conservative because of this qualitative feature.

References

  1. Di Cesare L.F., Forni E., Viscardi D, Nani R.C., 2003. Changes in the chemical composition of basil caused by different drying procedures. J. Agric. Food Chem. 51, 3575–3581.
  2. Dobrzański B. jr, Rybczyński R., 2000. Interpretacja fizyczna oceny barwy w zastosowaniu do klasyfikacji jakościowej jabłek. Acta Agrophysica 37, 17–27.
  3. Jaworska G., 1998. Wpływ sposobu suszenia i czasu przechowywania suszów z liści pietruszki na ich cechy jakościowe. Zesz. Nauk. AR im. H. Kołłątaja w Krakowie 342, 61–71.
  4. King C.J., 1971. Freeze-Frying of Food. CRC Press, Cleveland.
  5. Krokida M.K., Tsami E., Maroulis Z.B., 1998. Kinetics on color changes during drying of some fruits and vegetables. Drying Technol. 16, 3–5, 667–685.
  6. Krokida M.K., Maroulis Z.B., Saravacos G.D., 2001. The effect of the method of drying on the colour of dehydrated products. Int. J. Food Sci. Technol. 36, 53–59.
  7. Le Loch-Bonazzi C., Wolff E., Gilbert H., 1992. Quality of dehydrated cultivated mushrooms (Agaricus biosporus): A comparision between different drying and freeze-drying processes. Lebensm.-Wiss. u-Technol. 25, 334–339.
  8. Lisiewska Z., Kmiecik W., 1998. Dependence of dried chive (Allium Schoenoprasum) quality upon the drying method and storage period. EJPAU 1, 1, www.ejpau.media.pl
  9. Michalik H., Dobrzański W., 1987. Jakość liści warzyw suszonych metodą owiewową i sublimacyjną. Przemysł Fermentacyjny i Owocowo-Warzywny 6, 30–32.
  10. Oszmiański J., 2002. Technologia i analiza produktów z owoców i warzyw. Wybrane zagadnienia. Wyd. AR Wrocław.
  11. Yousif A.N., Durance T.D., Scaman C.H., Girard B., 2000. Headspace volatiles and physical characteristics of vacuum-microwave, air and freeze-dried oregano (Lippia berlandieri Schauer). Food Chem. Toxicol. 65, 6, 926–930.

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