期刊文献+

环境条件对微生物在滤料表面生长繁殖的影响 被引量:7

Effect of Environmental Conditions on Microbial Growth on Filter Media
下载PDF
导出
摘要 针对在适当的空气环境条件下,中央空调机组或大型客机环控系统中空气过滤器拦截的微生物可能在过滤器上大量生长繁殖的情况,挑选常用的玻璃纤维过滤材料,对其进行染菌,控制空气环境条件下培养,从而研究不同温湿度环境条件、滤料含水量以及不同滤料结构对微生物在滤料上生长繁殖的影响.结果表明:温度对含水滤料表面微生物最大生长繁殖量没有明显影响;在37,℃、90%相对湿度条件下的细菌最大生长繁殖量大约为加水滤料上的1/2,且大于相同温度下的低湿条件最大生长繁殖量;17,℃时,不同相对湿度条件下均没有生长趋势;低效滤料更适宜微生物生长.上述结论说明长期处于高湿度下的空气过滤器是最容易被微生物驻留并生长繁殖的部件,容易形成微生物二次污染. Suitable thermal environment conditions in the air-conditioning systems of building or the environmental control systems of aircraft cabin create great potential for microbial growth on the air filter media. To study the effects of environmental conditions on microbial growth, such as temperature, relative humidity(RH), moisture content of the filter media and filter structure, glass fiber filter media were selected for study. B. subtilis was selected as the target microorganism. Experimental results show that the maximal population density of the B. subtilis growth on totally wetted filter media is almost not affected by temperature. The maximal population density at RH=90% is about half of that on totally wetted media, and is higher than that at low humidity at 37 ℃. At 17 ℃, no growth appears in any humidity level. Microorganisms are more likely to grow on low efficiency filter media. All of these results showed that air filters consistently used in high temperature and humidity environment are the most likely units for potential components microbial growth, thus making it easy to cause secondary contamination of the indoor air.
出处 《天津大学学报(自然科学与工程技术版)》 EI CAS CSCD 北大核心 2014年第4期304-309,共6页 Journal of Tianjin University:Science and Technology
基金 国家重点基础研究发展计划(973计划)资助项目(2012CB720100) 国家自然科学基金资助项目(50978180) 天津市应用基础与前沿技术研究计划资助项目(11JCZDJC25300)
关键词 微生物 玻璃纤维滤料 生长繁殖 温度 相对湿度 microorganism glass fiber filter media growth temperature relative humidity
  • 相关文献

参考文献16

  • 1Tang W H. Effects of Temperature, Relative Humidity, and Air Flow on Microbial Growth on Loaded Ventilation Filters[D]. American: The University of Minnesota, 2008.
  • 2Bull K. Cabin air filtration: Helping to protect occupants from infectious diseases [J]. Travel Medicine and Infec- tiousDisease, 2008, 6(3) : 142-144.
  • 3Wang M, Brion G. Effects of RH on glass microfiber filtration efficiency for airborne bacteria and bacterio- phage over time [J]. Aerosol Science and Technology, 2007, 41(8) : 775-785.
  • 4Mangili A, Gendreau M A. Transmission of infectious diseases during commercial air travel[J]. The Lancet, 2005, 365(9463): 989-996.
  • 5Vesper S J, Wong W, Kuo C M, et al. Mold species in dust from the International Space Station identified and quantified by mold-specific quantitative PCR[J]. Re- search inMicrobiology, 2008, 159(6): 432-435.
  • 6Ahearn D G, Crow S A, Simmons R B, et al. Fungal colonization of fiberglass insulation in the air distribution system of a multi-stow office building: VOC production and possible relationship to a sick building syndrome [J]. Journal of Industrial Microbiology, 1996, 16(5): 280-285.
  • 7Perrier B J C, Coq L L, Andr6s Y, et al. SFGP 2007- microbial growth onto filter media used in air treatment devices [J]. International Journal of Chemical Reactor Engineering, 2008, 6(1): A9.
  • 8AKim Y S, Yoon K Y, Park J H, et al. Application of air ions for bacterial de-colonization in air filters contami-nated by aerosolized bacteria [J]. Science of the Total En- vironment, 2011, 409(4): 748-755.
  • 9刘燕敏,聂一新,张琳,涂舫.空调风系统的清洗对室内可吸入颗粒物和微生物的影响[J].暖通空调,2005,35(2):133-137. 被引量:33
  • 10Maus R, Goppelsr6der A, Umhauer H. Survival of bacterial and mold spores in air filter media[J]. Atmos- phericEnvironment, 2001, 35(1): 105-113.

二级参考文献16

  • 1[1]卫生部法监司.公共场所集中空调通风系统卫生规范[S].2003.
  • 2[4]Edelstein PH, Meyer RD. Community outbreak of Legionnaires' disease [J]. Chest, 1998,85:114-120.
  • 3[5]Bhopal R. Source of infection for sporadic Legionnaires' disease:a review [J] .J Infect, 1995,320:9-12.
  • 4[6]Keller DW. An investigation confirming the potential for cooling towers to transmit Legionella species[J]. Clin Infect Dis, 1996,22:257-261.
  • 5[8]McCall E, Stout JE, Efficacy of biocides against biofilm-associated Legionella in a model system[A]. Proceedings of the 60th Annual Meeting,Intemational Water Conference[C]. Pittsburgh, USA, 1999,141-147.
  • 6[9]Cirillo JD, Falkow S, Tompkins LS. Growth of Legionella pneumophila in Acanthamoeba castellanii enhances invasion[J]. Infect Immun, 1994,62:3254-3261.
  • 7[10]Visca P, Goldoni P, Luck PC, et al. Multiple types of Legionella pneumophila sergoup 6 in a hospital heated-water system associated with sporadic infections[J]. J Clin Microbiol, 1999,37:2189-2196.
  • 8叶世泰,中国致敏空气真菌学,1992年
  • 9.公共场所集中空调通风系统卫生规范.[S].卫生部,2003-8..
  • 10GB19210-2003.调通风系统清洗规范.[S].,..

共引文献88

同被引文献50

引证文献7

二级引证文献17

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部