EFFECTS OF MINIMAL PROCESSING AND VITAMIN C ENRICHMENT ON MICROBIOLOGICAL SAFETY AND VISCOSITY OF LIQUID EGG WHITE

Authors

  • Adrienn Tóth Szent István University, Department of Refrigeration and Livestock Product’s Technologies, Budapest 1118, Ménesi út 43-45. Hungary
  • Csaba Németh Capriovus Ltd., Dunasor 073/72., H-2317 Szigetcsép, Hungary
  • Emna Ayari Szent István University, Department of Refrigeration and Livestock Product’s Technologies, Budapest 1118, Ménesi út 43-45. Hungary
  • Klára Pásztor-Huszár Szent István University, Department of Refrigeration and Livestock Product’s Technologies, Budapest 1118, Ménesi út 43-45. Hungary
  • Ildikó Zeke Szent István University, Department of Refrigeration and Livestock Product’s Technologies, Budapest 1118, Ménesi út 43-45. Hungary
  • Karina Hidas Szent István University, Department of Refrigeration and Livestock Product’s Technologies, Budapest 1118, Ménesi út 43-45. Hungary
  • László Friedrich Szent István University, Department of Refrigeration and Livestock Product’s Technologies, Budapest 1118, Ménesi út 43-45. Hungary

DOI:

https://doi.org/10.7251/JEPM1901046T

Keywords:

High hydrostatic pressure, microbiological safety, viscosity, liquid egg white, vitamin C, functional food

Abstract

Emerging technologies, like High Hydrostatic Pressure, heat treatments on low temperatures, and ultra-sonication, have an increasing tendency in industrial application. Vitamin enriched foods, like eggs, are considered as functional foods, but for high retention of biologically active compounds adequate minimal processing technologies are needed. In our study vitamin C enriched liquid egg white was examined to meet consumer expectations. Several combinations of low temperature pasteurization (57 - 63°C, 5 – 7 min) and High Hydrostatic Pressure (350, 5 min) were used to provide microbiological stability of vitamin C enriched (1000 mg/L) liquid egg white. After enrichment and treatments, the samples were examined for mesophyll aerobe and Enterobacteriaceae cell counts and viscosity attributes. Our results show that microbiological stability is not significantly influenced by vitamin C enrichment, but the different parameters of heat treatments and HHP have a strong effect. Viscosity attributes (measured with Anton Paar MCR 92) analysed by Hershel-Bulkley models point out that higher pressure of HHP has a stronger influence on viscosity than the temperature of pasteurization. Our results show a great opportunity for industrial use of minimal processing technologies for liquid egg white.

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Published

2019-07-02

How to Cite

Tóth, A. ., Németh, C., Ayari, E., Pásztor-Huszár, K., Zeke, I., Hidas, K., & Friedrich, L. (2019). EFFECTS OF MINIMAL PROCESSING AND VITAMIN C ENRICHMENT ON MICROBIOLOGICAL SAFETY AND VISCOSITY OF LIQUID EGG WHITE. Journal of Engineering &Amp; Processing Management, 11(1), 46–50. https://doi.org/10.7251/JEPM1901046T

Issue

Vol. 11 No. 1 (2019): Journal of Engineering & Processing Management

Section

Original scientific paper

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Copyright (c) 2019 Journal of Engineering & Processing Management

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