Environmental Engineering Reference
In-Depth Information
140. Martonen, T.B. and Schroeter, J., Deposition of inhaled particles within human lungs, in
The Asbestos
Legacy, Volume 23 of the Sourcebook on Asbestos Diseases: Medical, Legal, and Engineering Aspects
,
Peters, G.A. and Peters, B.J. (Eds.), Matthew Bender and Company, Newark, NJ, 2001, Chap. 3.
141. Johnson, D.L., Polikandritou-Lambros, M., and Martonen, T.B., Drug encapsulation and aerodynamic
behavior of a lipid microtubule aerosol,
Drug Deliv
., 3, 9, 1996.
142. Johnson, D.L. and Martonen, T.B., Behavior of inhaled ibers: Potential applications to medicinal aero-
sols,
Part. Sci. Technol
., 12, 161, 1994.
143. Johnson, D.L. and Martonen, T.B., Fiber deposition along airway walls: Effects of iber cross section on
rotational interception,
J. Aerosol Sci
., 24, 525, 1993.
144. Rosati, J.A., Leith, D., and Kim, C., Monodisperse and polydisperse aerosol deposition in a packed bed,
Aerosol Sci. Technol
., 37, 1, 2003.
145. Kousaka, Y., Okuyama, K., Adachi, M., and Ebie, K., Measurement of electrical charge of aerosol par-
ticles generated by various methods,
J. Chem. Eng. Jpn
, 14, 54, 1981.
146. Wilson, L.B., The deposition of charged particles in tubes with reference to the retention of therapeutic
aerosols in the human lung,
J. Colloid Sci
., 2, 271, 1947.
147. Chan, T.L., Lippman, M., Cohen, V.R., and Schlesinger, R.B., Effect of electrostatic charges on particle
deposition in a hollow cast of the human larynx-tracheobronchial tree,
J. Aerosol Sci
., 9, 463, 1978.
148. Cohen, B.S., Xiong, J.Q., Fang, C., and Li, W., Deposition of charged particles in lung airways,
Health
Phys
., 74, 554, 1998.
149. Grover, S.N. and Pruppacher, H.R., A numerical determination of the eficiency with which spherical
aerosol particles collide with spherical water drops due to inertial impaction and phoretic and electrical
forces,
J. Atmos. Sci
., 34, 1655, 1977.
150. Scheuch, G., Gebhart, J., and Roth, C., Uptake of electrical charges in the human respiratory tract during
exposure to air loaded with negative ions,
J. Aerosol Sci
., 21, S439, 1990.
151. Chan, T.L. and Yu, C.P., Charge effects on particle deposition in the human tracheobronchial tree,
Ann.
Occup. Hyg
., 26, 65, 1982.
152. Hashish, A.H., Bailey A.G., and Williams, T.J., Modelling the effect of charge on selective deposition of
particles in a diseased lung using aerosol boli,
Phys. Med. Biol
., 39, 2247, 1994.
153. Melandri, C., Tarroni, G., Prodi, V., De Zaiacomo, T., Formignani, M., and Lombardi, C.C., Deposition
of charged particles in the human airways,
J. Aerosol Sci
., 14, 657, 1983.
154. Yu, C.P. and Chandra, K., Precipitation of submicron charged particles in the human lung airways,
Bull.
Math. Biol
., 49, 471, 1977.
155. Martonen, T.B. and Musante, C.J., Importance of cloud motion on cigarette smoke deposition in lung
airways,
Inhal. Toxicol
., 12, 261, 2000.
156. Martonen, T.B., The behavior of cigarette smoke in human airways,
Am. Ind. Hyg. Assoc. J
., 53, 6, 1992.
157. Bennett, W.D., Zeman, K.L., and Jarabek, A.M., Nasal contribution to breathing and ine particle deposi-
tion in children versus adults,
J. Toxicol. Environ. Health A
, 71, 227, 2008.
158. Smith, J.R., Bailey, M.R., Etherington, G., Shutt, A.L., and Youngman, M.J., An experimental study of
clearance of inhaled particles from the human nose,
Exp. Lung Res
., 37(2):109-129, 2011.
159. Zhou, Y., Su, W.C., Cheng, Y.S., Fiber deposition in the tracheobronchial region: Deposition equations.
Inhal. Toxicol
., 20(13), 1191-1198, 2008.
Search WWH ::
Custom Search