Environmental Engineering Reference
In-Depth Information
334. Cox, C.S. and Wathes, C.M. (Eds.),
Bioaerosols Handbook
, Lewis Publishers, Boca Raton, FL, 1995.
335. AIHA,
Field Guide for the Determination of Biological Contaminants in Environmental Samples
,
American Industrial Hygiene Association, Fairfax, VA, 1996.
336. Hurst, C.J. (Ed.),
Manual of Environmental Microbiology
, 2nd edn., American Society for Microbiology,
Washington, DC, 2001.
337. Muilenberg, M.L., Bioaerosol sampling and analytical techniques, in
Air Sampling Technologies:
Principles and Applications
, American Conference of Government Industrial Hygienists, Cincinnati, OH
2009, http://www.acgih.org/products/AS121_TOC.pdf
338. Wurtz, H., Sigsgaard, T., Valbjorn, O. et al., The dustfall collector—A simple passive tool for long-term
collection of airborne dust: A project under the Danish Mould In Buildings Program (DANIB).
Indoor
Air
, 15 (Suppl 9), 33, 2005.
339. Noss, I., Wouters, I.M., Visser, M. et al., Evaluation of a low-cost electrostatic dust fall collector for
indoor air endotoxin exposure assessment,
Appl. Environ. Microbiol
., 74, 5621, 2008.
340. Sivasubramani, S.K., Niemeier, R.T., Reponen, T. et al., Assessment of the aerosolization potential for
fungal spores in moldy homes,
Indoor Air
, 14, 405, 2004.
341. Kildesø, J., Würtz, K.F., Nielsen, P. et al., Determination of fungal spore release from wet building mate-
rials,
Indoor Air
, 13, 148, 2003.
342. Willeke, K. and Macher, J.M., Air sampling, in
Bioaerosols, Assessment and Control
, Macher, J.M.,
Ammann, H.M., Burge, H.A. et al. (Eds.), American Conference of Government Industrial Hygienists,
Cincinnati, OH, 1999, Chap. 11.
343. Hinds, W.C., Filtration, bioaerosols, in
Aerosol Technology: Properties, Behavior, and Measurement of
Airborne Particles
, 2nd edn., John Wiley & Sons Inc., New York, 1999, Chap. 9, p. 19.
344. Stewart, S.L., Grinshpun, S.A., Willeke, K. et al., Effect of impact stress on microbial recovery on an agar
surface,
Appl. Environ. Microbiol
., 61, 1232, 1995.
345. Mainelis, G. and Tabayoyong, M., The effect of sampling time on the overall performance of portable
microbial impactors,
Aerosol Sci. Technol
., 44, 75, 2010.
346. Yao, M. and Mainelis, G., Analysis of portable impactor performance for enumeration of viable bioaero-
sols,
J. Occup. Environ. Hyg
., 4, 514, 2007.
347. Willeke, K., Lin, X., and Grinshpun, S.A., Improved aerosol collection by combined impaction and cen-
trifugal motion,
Aerosol Sci. Technol
., 28, 439, 1998.
348. Aizenberg, V., Bidinger, E., Grinshpun, S.A. et al., Airlow and particle velocities near a personal aerosol
sampler with a curved, porous aerosol sampling surface,
Aerosol Sci. Technol
., 18, 247, 1998.
349. Liu, B.Y.H. and Lee, K.W., Eficiency of membrane and nucleopore ilters for submicrometer aerosols,
Environ. Sci. Technol
., 10, 345, 1976.
350. Burton, N., Grinshpun, S.A., and Reponen, T., Physical collection eficiency of ilter materials for bacte-
ria and viruses,
Ann. Occup. Hyg
., 51, 143, 2007.
351. Schmechel, D., Górny, R.L., Simpson, J.P. et al., Limitations of monoclonal antibodies for monitoring
of fungal aerosols using
Penicillium brevicompactum
as a model fungus,
J. Immunol. Meth
., 283, 235,
2003.
352. Li, C.S., Hao, M.L., Lin, W.H. et al., Evaluation of microbial samplers for bacterial microorganisms,
Aerosol Sci. Technol
., 30, 100, 1999.
353. Lin, W.H. and Li, C.S., The effect of sampling time and low rates on the bioeficiency of three fungal
spore sampling methods,
Aerosol Sci. Technol
., 28, 511, 1998.
354. Lin, W.H. and Li, C.S., Evaluation of impingement and iltration for yeast bioaerosol sampling,
Aerosol
Sci. Technol
., 30, 119, 1999.
355. Adhikari, A., Martuzevicius, D., Reponen, T. et al., Performance of the Button Personal Inhalable
Sampler for the measurement of outdoor aeroallergens,
Atmos. Environ
., 34, 4723, 2003.
356. Douwes, J., Versloot, P., Hollander, A. et al., Inluence of various dust sampling and extraction methods
on the measurement of airborne endotoxin,
Appl. Environ. Microbiol
., 61, 1763, 1995.
357. Wet Electrostatic Precipitator (WEP), portable high-throughput liquid assisted air sampler (PHTLAAS),
Zaromb Research Corporation, Burr Ridge, IL, (www.zaromb.com/products.htm, website accessed
December 15, 2010).
358. Han, T. and Mainelis, G., Design and development of an electrostatic sampler for bioaerosols with high
concentration rate,
J. Aerosol Sci
., 39, 1066, 2008.
359. Han, T., An, H.R., and Mainelis, G., Performance of an electrostatic precipitator with hydrophobic sur-
face when collecting airborne bacteria,
Aerosol Sci. Technol
., 44, 339, 2010.
360. Agranovski, V., Ristovski, Z., Hargreaves, M. et al., Performance evaluation of the UVAPS: Inluence of
physiological age of airborne bacteria and bacterial stress,
J. Aerosol Sci
., 34, 1711, 2003.
Search WWH ::
Custom Search