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The impact of pulsed electric fields on quality parameters of freeze‐dried red beets and pineapples

Dagmar Ammelt, Alica Lammerskitten, Artur Wiktor, Francisco J. Barba, Stefan Toepfl, Oleksii Parniakov

2020International Journal of Food Science & Technology33 citationsDOI

Abstract

Abstract The effect of pulsed electric fields (PEF) on the cell disintegration index (Zp), the freeze‐drying process and the final product quality of red beet and pineapple tissue was studied. Red beets and pineapples were PEF‐treated at an electric field strength of 1.07 kV/cm and specific energy inputs of 1 kJ/kg and 4 kJ/kg (PEF 1 and PEF 2 , respectively). Freeze‐drying was performed at a pressure of 1 mbar and heating plate temperature of 50 °C for red beet and 40 °C for pineapple. The quality of freeze‐dried tissue was evaluated by the analysis of residual moisture content, macrostructure, texture, colour and rehydration properties. For freeze‐dried red beets, the betalain content from extracts was studied. It could be stated that PEF pre‐treatment had no significant influence on drying time reduction, however significantly improved the final quality of freeze‐dried product. Moreover, the effect of PEF was strongly depending on type of plant material used.

Topics & Concepts

Freeze-dryingFood scienceChemistryElectric fieldWater contentBlanchingDried fruitMaterials scienceHorticultureChromatographyBiologyGeotechnical engineeringQuantum mechanicsPhysicsEngineeringBotanical Research and ApplicationsMicrobial Inactivation MethodsMagnetic and Electromagnetic Effects
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