Thermal effects on bacterial bioaerosols in continuous air flow

Authors
Jung, Jae HeeLee, Jung EunKim, Sang Soo
Issue Date
2009-08
Publisher
ELSEVIER SCIENCE BV
Citation
SCIENCE OF THE TOTAL ENVIRONMENT, v.407, no.16, pp.4723 - 4730
Abstract
Exposure to bacterial bioaerosols can have adverse effects on health, such as infectious diseases, acute toxic effects, and allergies. The search for ways of preventing and curing the harmful effects of bacterial bioaerosols has created a strong demand for the study and development of an efficient method of controlling bioaerosols. We investigated the thermal effects on bacterial bioaerosols of Escherichia coli and Bacillus subtilis by using a thermal electric heating system in continuous air flow. The bacterial bioaerosols were exposed to a surrounding temperature that ranged from 20 degrees C to 700 degrees C for about 0.3 s. Both E coli and B. subtilis vegetative cells were rendered more than 99.9% inactive at 160 degrees C and 350 degrees C of wall temperature of the quartz tube, respectively. Although the data on bacterial injury showed that the bacteria tended to sustain greater damage as the surrounding temperature increased, Gram-negative E coli was highly sensitive to structural injury but Gram-positive B. subtilis was slightly more sensitive to metabolic injury. In addition, the inactivation of E coli endotoxins was found to range from 9.2% (at 200 degrees C) to 82.0% (at 700 degrees C). However, the particle size distribution and morphology of both bacterial bioaerosols were maintained, despite exposure to a surrounding temperature of 700 degrees C. Our results show that thermal heating in a continuous air flow can be used with short exposure time to control bacterial bioaerosols by rendering the bacteria and endotoxins to a large extent inactive. This result could also be useful for developing more effective thermal treatment strategies for use in air purification or sterilization systems to control bioaerosols. (c) 2009 Elsevier B.V. All rights reserved.
Keywords
DRY-HEAT DESTRUCTION; SHORT-TIME PASTEURIZATION; SMALL CERAMIC HEATER; ESCHERICHIA-COLI; HIGH-TEMPERATURE; ULTRAVIOLET-RADIATION; RELATIVE HUMIDITY; AIRBORNE BACTERIA; DISTILLED WATER; REAL-TIME; Bacterial bioaerosols; Thermal electric heating system; Air sterilization; Airborne bacterial endotoxin; Relative recovery
ISSN
0048-9697
URI
https://pubs.kist.re.kr/handle/201004/132245
DOI
10.1016/j.scitotenv.2009.05.008
Appears in Collections:
KIST Article > 2009
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