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Literature DB >> 9709231

Inactivation of microorganisms with microwaves at reduced temperatures.

M F Kozempel¹, B A Annous, R D Cook, O J Scullen, R C Whiting.

Abstract

We developed a pilot-plant nonthermal flow process using microwave energy to inactivate microorganisms. The process consists of multiple passes through the microwave generator. Each passed material goes to a receiving tank for subsequent passes. The flow rate was 0.96 to 1.26 kg/min and the dwell time per pass was 1.1 to 1.5 min. Five passes were used. The microwave energy is instantaneously and simultaneously applied to the system, and thermal energy is removed by a cooling tube within the process line in the microwave generator. The cooling tube maintains the temperature below 40 degrees C. There was significant reduction in microorganisms in water, 10% glucose solution, and apple juice, and in yeast in beer. There was a slight decrease in microorganisms in tomato juice, pineapple juice, apple cider, and beer; and no effect in skim milk.

Entities: Chemical Species

Mesh：

Substances：
Solutions
Glucose

Year: 1998 PMID： 9709231 DOI： 10.4315/0362-028x-61.5.582

Source DB: PubMed Journal: J Food Prot ISSN： 0362-028X Impact factor: 2.077

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Cited

8 in total

1. Thermal and nonthermal effects of discontinuous microwave exposure (2.45 gigahertz) on the cell membrane of Escherichia coli.

Authors: Carole Rougier; Audrey Prorot; Philippe Chazal; Philippe Leveque; Patrick Leprat
Journal: Appl Environ Microbiol Date: 2014-06-06 Impact factor: 4.792

2. Changes in membrane fatty acid composition of Pediococcus sp. strain NRRL B-2354 in response to growth conditions and its effect on thermal resistance.

Authors: B A Annous; M F Kozempel; M J Kurantz
Journal: Appl Environ Microbiol Date: 1999-07 Impact factor: 4.792

3. Differential damage in bacterial cells by microwave radiation on the basis of cell wall structure.

Authors: I S Woo; I K Rhee; H D Park
Journal: Appl Environ Microbiol Date: 2000-05 Impact factor: 4.792

4. The Influence of Microwave Sterilization on the Ultrastructure, Permeability of Cell Membrane and Expression of Proteins of Bacillus Cereus.

Authors: Jin-Xuan Cao; Fang Wang; Xuan Li; Yang-Ying Sun; Ying Wang; Chang-Rong Ou; Xing-Feng Shao; Dao-Dong Pan; Dao-Ying Wang
Journal: Front Microbiol Date: 2018-09-04 Impact factor: 5.640

Inactivation of microorganisms with microwaves at reduced temperatures.

1. Thermal and nonthermal effects of discontinuous microwave exposure (2.45 gigahertz) on the cell membrane of Escherichia coli.

2. Changes in membrane fatty acid composition of Pediococcus sp. strain NRRL B-2354 in response to growth conditions and its effect on thermal resistance.

3. Differential damage in bacterial cells by microwave radiation on the basis of cell wall structure.

4. The Influence of Microwave Sterilization on the Ultrastructure, Permeability of Cell Membrane and Expression of Proteins of Bacillus Cereus.

5. Effect of different microwave power levels on inactivation of PPO and PME and also on quality changes of peach puree.

6. Evaluation of non-thermal effect of microwave radiation and its mode of action in bacterial cell inactivation.

7. Mathematical models of cobalt and iron ions catalyzed microwave bacterial deactivation.

8. Inactivation of Salmonella spp., Escherichia coli O157:H7 and Listeria monocytogenes in Tahini by Microwave Heating.