FIZIKA A 19 (2010) 2 , 83-92

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DIRECT AND INDIRECT PLASMA YEAST STERILIZATION

NASSER N. MORGANa, ASEM METAWAa and ABDOU A. GARAMONb
aPhysics Department, Faculty of Science (male), Al-Azhar University, Nasr city, Cairo, Egypt
bCenter of Plasma Technology, Al-Azhar University, Nasr city, Cairo, Egypt

Received 23 November 2009;    Revised manuscript received 21 March 2010
Accepted 2 June 2010    Online 12 July 2010

Atmospheric-pressure parallel-plate dielectric barrier discharge has been designed for sterilization of Saccharomyces Cerevisiae and Candida yeasts. Oxygen has been used as the input working gas. The output gas after discharge operation was a mixture of both ozone and oxygen, with concentration that depends on the applied voltage between the electrodes, gap space and gas flow rate. Sterilization process has been done in two ways, by direct exposure to oxygen plasma inside the discharge cell and by indirect exposure to the plasma. Survivor curves, and scanning and transmission electron microscope were used to study the inactivation kinetics and morphology of the yeast surface before and after sterilization. It has been found that the indirect sterilization causes yeast inactivation in a short time, less than three minutes, while the direct sterilization took place in a longer time, more than ten minutes.

PACS numbers: 52.80.Dy, 52.75.Rx
UDC 537.523, 533.924, 535.682

Keywords: atmospheric pressure discharge in oxygen, sterilization of yeast, exposure inside the discharge cell, indirect exposure, survivor curves, inactivation kinetics

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