Measurements of Aerosol Physical Properties (See General Comment #1) 9




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Acknowledgments



Preparation of this review was supported in part by the Electric Power Research Institute through Grant No. EPRI W09116-08/W04105-01.

I did not review the references, but added at least one to the list below, and inserted the others within the text for you to move if you wish to keep them.

References



Adachi, M., K. Okuyama, et al. (1983). ÒElectrical Neutralization of Charged Aerosol Particles by Bipolar Ions.Ó Journal of Chemical Engineering of Japan 16(3): 229-235.

Adams, K. M. (1988). ÒReal-Time in situ Measurements of Atmospheric Optical Absorption in the Visible Via Photoacoustic Spectroscopy. 1: Evaluation of the Photoacoustic Cells.Ó Applied Optics 27(19): 4052-4056.

Aden, G. D. and P. R. Buseck (1983). Aminicomputer procedure for quantitative EDS analyses of small particles. Microbeam Analysis-1983. R. Gooley. San Francisco CA, San Francisco Press, Inc.: 195-201.

Aitken, J. (1890-1891). ÒOn a simple pocket dust-counter.Ó Proceedings of the Royal Society of Edinburgh XVIII: 39-53.

Allen, G. A., W. A. Turner, et al. (1984). Description of a continuous sulfuric acid/sulfate monitor. National Symposium on Recent Advances in Pollutant Monitoring of Ambient Air and Stationary Sources, U.S. EPA No. EZPA-600/9-84-019.

Almasi, G. S., J. Blair, et al. (1965). ÒA heat-flow problem in electron-beam microprobe analysis.Ó Journal of Applied Physics 36: 1848-1854.

Ananth, G. P. and J. C. Wilson (1988). ÒTheoretical analysis of the performance of the TSI aerodynamic particle sizer.Ó J. Aerosol Sci. 9: 189-199.

Anderson, J. R., F. J. Aggett, et al. (1988). ÒChemistry of Individual Aerosol Particles from Chandler, Arizona, an Arid Urban Environment.Ó ES&T 22(7): 811-818.

Anderson, J. R., P. R. Buseck, et al. (1996). ÒCharacterization of the Bermuda tropospheric aerosol by combined individual-particle and bulk-aerosol analysis.Ó Atmospheric Environment 30(2): 319-338.

Anderson, T. L., D. S. Covert, et al. (1996). ÒPerformance characteristics of a high-sensitivity, three wavelength, total scatter/backscatter nephelometer.Ó Journal of Atmospheric and Oceanic Technology 13(5): 967-986.

Andreae, M. O., R. J. Charlson, et al. (1986). ÒInternal mixture of sea salt, silicates, and excess sulfate in marine aerosols.Ó Science 222: 1620-1623.

Appel, B. R. and Y. Tokiwa (1981). ÒAtmospheric Particulate Nitrate Sampling Errors Due to Reactions with Particulate and Gaseous Strong Acids.Ó Atmos. Env. 15(6): 1087-1090.

Armstrong, J. T. and P. R. Buseck (1975). ÒQuantitative chemical analysis of individual microparticles using the electron microprobe.Ó Analyt. Chem. 47: 2178-2192.

Artaxo, P., M. L. C. Rabello, et al. (1992). ÒTrace Elements and Individual Particle Analysis of Atmospheric Aerosols From the Antarctic Peninsula.Ó Tellus 44B: 31-334.

Baltensperger, U., H. W. GŠ¬ggeler, et al. (1991). ÒContinuous Background Aerosol Monitoring with the Epiphaniometer.Ó Atmos. Env. 25A(3/4): 629-634.

Baron, P. A., M. K. Mazumder, et al. (1993). Direct-reading techniques using optical particle detection. Aerosol Measurement: Principles, Techniques, and Applications. K. Willeke and P. A. Baron. New York, Van Norstrand Reinhold.

Bartz, H., H. Fissan, et al. (1985). ÒResponse Characteristics for Four Condensation Nucleus Counters to Particles in 3 to 50nm Diameter Range.Ó Journal Aerosol Science Vol. 16(No. 5): 443-456.

Baumgardner, D., J. E. Dye, et al. (1996). ÒRefractive, indices of aerosols in the upper troposphere and lower stratosphere.Ó Geophysical Research Letters 23(7): 749-752.

Baumgardner, D. and B. Huebert (1993). ÒThe Airborne Aerosol Inlet Workshop - Meeting Report.Ó Journal of Aerosol Science 24(6): 835-846.

Baumgardner, D., K. Weaver, et al. (1993). The multiangle aerosol spectrometer probe (MASP): A new aerosol probe for airborne stratospheric research. American Association for Aerosol Research, Oak Brook, IL.

Belyaev, S. P. and L. M. Levin (1974). ÒTechniques for Collection of Representative Aerosol Samples.Ó Aerosol Science 5: 325-338.

Berglund, R. N. and B. Y. H. Liu (1973). ÒGeneration of Monodisperse Aerosol Standards.Ó Environmental Science & Technology 7(2): 147-153.

Berner, A., C. LŸrzer, et al. (1979). ÒThe Size Distribution of the Urban Aerosol in Vienna.Ó The Science of the Total Environment: 245-261.

Beuttell, R. G. and A. W. Brewer (1949). ÒInstruments for the Measurement of the Visual Range.Ó : 357-359.

Bowers, W. D. and R. L. Chuan (1989). ÒSurface acoustic wave piezoelectric crystal aerosol mass monitor.Ó Rev. Sci. Instr. 60(7): 1297-1302.

Bricard, J., P. Delattre, et al. (1976). Detection of Ultra-Fine Particles by Means of a Continuous Flux Condensation Nuclei Counter. Fine Particles: Aerosol Generation, Measurement, Sampling, and Analysis. B. Y. H. Liu. New York, Academic Press: 565-580.

Brock, C. A., P. Hamill, et al. (1995). ÒParticle formation in the upper tropical troposphere: A source of nuclei for the stratospheric aerosol.Ó Science 270: 1650-1653.

Bruynseels, F., P. Otten, et al. (1988). ÒInorganic Nitrogen Speciation in Single Micrometer-size Particles by Laser Microprobe Mass Analysis.Ó Journal of Analytical Atomic Spectrometry 3: 237-240.

Bruynseels, F., H. Storms, et al. (1988). ÒCharacterization of North Sea aerosols by individual particle analysis.Ó Atmospheric Environment 22: 2593-2602.

Bruynseels, F. and R. Van Grieken (1985). ÒDirect detection of sulfate and nitrate layers on sampled marine aerosols by laser microprobe mass analysis.Ó Atmos. Environ. 19(11): 1969-1970.

Bruynseels, F. and R. Van Grieken (1986). ÒRecombination reactions and geometry effects in laser microprobe mass analysis studies with 12C/13C bilayers.Ó Int. J. Mass Spectrom. Ion Processes 74: 161-177.

Bruynseels, F. J. and R. E. van Grieken (1984). ÒLaser Microprobe Mass Spectrometric Identification of Sulfur Species in Single Micrometer-Size Particles.Ó Anal. Chem. 56: 871-873.

Cadle, S. H., P. J. Groblicke, et al. (1983). ÒProblems in the Sampling and Analysis of Carbon Particulate.Ó Atmospheric Environment 17: 593-600.

Cahill, T. A., R. A. Eldred, et al. (1990). The stacked filter unit revisited. Transactions: Visibility and Fine Particles. C. V. Mathai. Pittsburgh, PA, Air and Waste Management Assoc.: 213-.

Cahill, T. A. and W. C. Malm (1987). Size/Time/Composition Data at grand Canyon National Park and the Role of Ultrafine Sulfur Particles, in Visibility Protection: Research and Policy Aspects. P. S. Bhardwaja. APCA, P.O. Box 2861

Pittsburgh, PA 15230, APCA Publication No. TR-10.

Camp, D. C., R. K. Stevens, et al. (1982). ÒIntercomparison of concentration results from fine particle sulfur monitors.Ó Atmospheric Environment 16: 911-916.

Campbell, D., S. Copeland, et al. (1989). The coefficient of optical absorption from particles deposited on filters: integrating plate, integrating sphere and coefficient of haze measurements. 82nd Annual Meeting & Exhibition, Anaheim, California, APCA.

Carson, P. G., M. V. Johnston, et al. (1997). ÒLaser desporption ionization of ultrafine aerosol particles.Ó Rapid Communications in Mass Spectrometry in press.

Carson, P. G., M. V. Johnston, et al. (1997). ÒReal-time monitoring of the surface and total composition of aerosol particles.Ó Aerosol Science and Technology 26(4): 291-300.

Casuccio, G. S., P. B. Janocko, et al. (1983). ÒThe use of Computer Controlled Scanning Electron Microscopy in Environmental Studies.Ó JAPCA 33(10): 937-944.

Chan, T. and M. Lippmann (1977). ÒParticle collection efficiencies of air sampling cyclones: An empirical theory.Ó Environ. Sci. Technol. 11: 377-382.

Charlson, E. J., W. M. Porch, et al. (1974). ÒBackground aerosol light scattering characteristics: nephelometric observations at Mauna Loa Observatory compared with results at other remote locations.Ó Tellus XXVI(3): 345-359.

Charlson, R. J., N. C. Ahlquist, et al. (1968). ÒOn the Generality of Correlation of Atmospheric Aerosol Mass Concentration and Light Scatter.Ó Atmospheric Environment 2: 455-464.

Chen, B. T. (1993). Instrument calibration. Aerosol Measurement: Principles, Techniques, and Applications. K. Willeke and P. A. Baron. New York, Van Norstrand Reinhold: 493-520.

Chen, D. and D. Y. H. Pui (1995). ÒNumerical modeling of the performance of differential mobility analyzer for nanometer aerosol measurements.Ó J. Aerosol Sci. 26: S141-S142.

Chen, D. R., D. Y. H. Pui, et al. (1996). Nanometer Differential Mobility Analyzer: Design and numerical modeling. AAAR, Orlando, FL.

Cheng, Y.-S. and H.-C. Yeh (1979). ÒParticle Bounce in Cascade Impactors.Ó ES&T 13(11): 1392-1396.

Cheng, Y. S., B. T. Chen, et al. (1990). ÒA study of density effect and droplet deformation in the TSI aerodynamic particle sizer.Ó Aerosol Sci. Technol. 4: 89-97.

Cheng, Y. S. and H. C. Yeh (1980). ÒTheory of a screen-type diffusion battery.Ó J. Aerosol Sci. 11: 313-320.

Chow, J. C. (1995). ÒMeasurement methods to determine compliance with ambient air quality standards for suspended particles.Ó Journal of the Air & Waste Management Association 45(5): 320-382.

Clarke, A. D. (1982). ÒIntegrating Sandwich: A New Method of Measurement of the Light Absorption Coefficient for Atmospheric Particles.Ó Applied Optics 21(16): 3011-3020.

Clarke, A. D. (1993). ÒAtmospheric Nuclei in the Pacific Midtroposphere - Their Nature, Concentration, and Evolution.Ó Journal of Geophysical Research - Atmospheres 98(D11): 20633-20647.

Coburn, W. G., R. B. Husar, et al. (1978). ÒContinuous in situ monitoring of ambient particulate sulfur using flame photometry and thermal analysis.Ó Atmospheric Environment 12: 89-98.

Commins, B. T. and P. J. Lawther (1957). ÒVolatility of 3,4-benzpyrene in relation to the collection of smoke samples.Ó Br. J. Cancer 12: 351-354.

Cooke, D. D. and M. Kerker (1975). ÒResponse calculations for light scattering aerosol particle counters.Ó Applied Optics 14: 734-739.

Cooper, D. W. and J. J. Wu (1990). ÒThe inversion matrix and error estimation in data inversion: Application to diffusion battery measurements.Ó J. Aerosol Sci. 21(2): 217-226.

Courtney, W. J., R. W. Shaw, et al. (1982). ÒPrecision and Accuracy of a § Gauge for Aerosol Mass Determinations.Ó ES&T 16(4): 236-238.

Covert, D. S., H.-C. Hansson, et al. (1991). The degree of mixing of hygroscopic properties in source and receptor locations in northern Europe. AAAR'91, Traverse City, Michigan, U.S.A.

Curzon, A. E. (1991). ÒA first-order theory for the temperature distribution in a thermally conducting and radiating rectangular film observed by transmission electron microscopy.Ó Journal of Physics D: Applied Physics 24: 1616-1623.

D'Ottavio, T. D., R. Garber, et al. (1981). ÒDetermination of Ambient Aerosol Sulfur Using a Continuous Flame Photometric Detection System II. The Measurement of Low-Level Sulfur Concentrations Under Varying Atmospheric Conditions.Ó Atmos. Env. 15(2): 197-204.

Dahneke, B. and D. Padliya (1977). ÒNozzle-inled design for aerosol beam.Ó Instruments in Rarefied Gas Dynamics 51 Part II: 1163-1172.

Dahneke, B. E. (1973). ÒAerosol beam spectrometry.Ó Nature Physical Sci. 244: 54-55.

Dahneke, B. E. and Y. S. Cheng (1979). ÒProperties of continuum source particle beams. I. Calculation methods and results.Ó J. Aerosol Sci. 10: 257-274.

Danilatos, G. D. (1988). ÒFoundations of environmental scanning electron microscopy.Ó Advances in Electronics and Electron Physics 71: 109-250.

Danilatos, G. D. and R. Postle (1982). ÒThe environmental scanning electron microscope and its applications.Ó Scanning Electron Microscopy I: 1-16.

Davis, J. E. and A. K. Ray (1978). ÒSubmicron droplet evaporation in the continuum and non-continuum regimes.Ó J. Aerosol Science 9: 411-422.

de Juan, L. and J. Fern‡ndez de la Mora (1997). ÒHigh resolution size-analysis of nanoparticles and ions: Running a DMA of near optimal length at Reunolds numbers up to 5000.Ó J. Aerosol Sci. in press.

De Waele, J. K., J. J. Gjbels, et al. (1983). ÒLaser microprobe mass analysis of asbestos fiber surfaces for organic compounds.Ó Anal. Chem. 55: 671-677.

de Waele, J. K. E. and F. C. Adams, Eds. (1986). Laser-microprobe mass analysis of fibrous dusts. Chemical Characterization if Individual Airborne Particles. Chichester, U. K., Ellis Horwood Limited.

De Wiest, F. and D. Rondia (1976). ÒSur la validite des determinations du benzo(a)pyrene atmospherique pendant les mois d'ete (Short Communication).Ó Atmos. Environ. 10: 487-489.

Dick, W., P. H. McMurry, et al. (1994). ÒSize- and composition-dependent response of the DAWN-A multiangle single-particle optical detector.Ó Aerosol Science and Technology 20(4): 345-362.

Dick, W. D., B. A. Sachweh, et al. (1996). ÒDistinction of coal dust particles from liquid droplets using the DAWN-A detector.Ó App. Occup. Environ. Hyg. 11(7): 637-645.

Dick, W. d., P. A. Ziemann, et al. (1997). ÒOptical shape fraction measurements of submicron laboratory and atmospheric aerosols.Ó Measurement Science and Technology submitted, June, 1997.

Dirgo, J. and D. Leith (1985). ÒCyclone collection efficiency: Collection efficencies of experimental results with theoretical predictions.Ó Aerosol Sci. Technol. 4: 401-415.

Duntley, S. Q., A. R. Boileau, et al. (1957). ÒImage transmission by the troposphere I.Ó Journal of the Optical Society of America 47: 499-506.

Dunwoody, C. L. (1986). ÒRapid nitrate loss from PM-10 filters.Ó J. Air Pollut. Control Assoc. 36: 817-818.

Dzubay, T. H., L. E. Hines, et al. (1976). ÒParticle bounce in cascade impactors.Ó Environ. Sci. Technol. 13: 1392-1395.

Eatough, D. J., N. Aghdale, et al. (1990). Loss of semi-volatile organic compounds from particles during sampling on filters. Proceedings of the AWMA Visibility Conference. Estes Park, CO, October 16-19, 1989, Air & Waste Management Association.

Eatough, D. J., M. Brutsch, et al. (1986). Diffusion denuder sampling systems for the collection of gas and particle phase organic compounds in Visibility Protection: Research and Policy Aspects. Proceedings of APCA Specialty Conference on Visibility, APCA.

Eatough, D. J., A. Wadsworth, et al. (1993). ÒA multiple-system, multi-channel diffusion denuder sampler for the determination of fine-particulate organic material and the atmosphere.Ó Atmospheric Environment
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