论文信息 - Particle mobility size spectrometers : harmonization of technical standards and data structure to facilitate high quality long-term observations of atmospheric particle number size distributions - 字舞流文

Particle mobility size spectrometers : harmonization of technical standards and data structure to facilitate high quality long-term observations of atmospheric particle number size distributions

Introduction Conclusions References

C. O'Dowd | G. Leeuw | R. Harrison | E. Asmi | T. Tuch | S. Jennings | K. Sellegri | B. Wehner | P. Mcmurry | J. Ogren | D. Beddows | M. Fiebig | E. Swietlicki | A. Nowak | A. Wiedensohler | W. Birmili | E. Weingartner | A. Marinoni | P. Aalto | B. Henzing | K. Weinhold | F. Riccobono | P. Quincey | M. Gysel | M. Moerman | L. Keck | P. Roldin | R. Fierz-Schmidhauser | S. Santos | C. Hüglin | H. Horn | A. M. Fjäraa | S. Pfeifer | C. Monahan | K. Faloon | P. Villani | C. S. Zhao | M. Merkel | J. Scheckman | H. Venzac | A. Sonntag | R. Depuy | P. Laj | P. Williams | C. Grüning | J. Jiang | Z. Deng | C. O’Dowd

[1] A. Wiedensohler,et al. Long term measurements of submicrometer urban aerosols: statistical analysis for correlations with meteorological conditions and trace gases , 2002 .

[2] T. Tuch,et al. Comparability of three spectrometers for monitoring urban aerosol , 2001 .

[3] M. Stolzenburg,et al. Equations Governing Single and Tandem DMA Configurations and a New Lognormal Approximation to the Transfer Function , 2008 .

[4] A. Wiedensohler,et al. Determination of Differential Mobility Analyzer Transfer Functions Using Identical Instruments in Series , 1997 .

[5] A. Berner,et al. A new electromobility spectrometer for the measurement of aerosol size distributions in the size range from 1 to 1000 nm , 1991 .

[6] H. Hansson,et al. One year boundary layer aerosol size distribution data from five nordic background stations , 2003 .

[7] E. Knutson. EXTENDED ELECTRIC MOBILITY METHOD FOR MEASURING AEROSOL PARTICLE SIZE AND CONCENTRATION , 1976 .

[8] Heinz Fissan,et al. Design and evaluation of a nanometer aerosol differential mobility analyzer (Nano-DMA) , 1998 .

[9] B. Wehner,et al. Particle counting efficiencies of new TSI condensation particle counters , 2007 .

[10] A. Reineking,et al. Measurements of Particle Loss Functions in a Differential Mobility Analyzer (TSI, Model 3071) for Different Flow Rates , 1986 .

[11] Benjamin Y. H. Liu,et al. A submicron aerosol standard and the primary, absolute calibration of the condensation nuclei counter , 1974 .

[12] K. Okuyama,et al. Determination of particle size distribution of ultra-fine aerosols using a differential mobility analyzer , 1985 .

[13] R. Flagan,et al. Please Scroll down for Article Aerosol Science and Technology Transfer Functions and Penetrations of Five Differential Mobility Analyzers for Sub-2 Nm Particle Classification Transfer Functions and Penetrations of Five Differential Mobility Analyzers for Sub-2 Nm Particle Classification , 2022 .

[14] A. Petzold,et al. Hygroscopic Properties of Sub-micrometer Atmospheric Aerosol Particles Measured with H-TDMA Instruments in Various Environments – A Review , 2007 .

[15] G. Mulholland,et al. Calibration of a Condensation Particle Counter Using a NIST Traceable Method , 2009 .

[16] Jingchuan Zhou. Hygroscopic Properties of Atmospheric Aerosol Particles in Various Environments , 2001 .

[17] Alfred Wiedensohler,et al. Atmospheric particle number size distribution in central Europe: Statistical relations to air masses and meteorology , 2001 .

[18] J. Seinfeld,et al. Diffusional losses in particle sampling systems containing bends and elbows , 2002 .

[19] H. Spoelstra,et al. A high-resolution electrical mobility aerosol spectrometer (MAS) , 1983 .

[20] A. Petzold,et al. Inversion of data containing information on the aerosol particle size distribution using multiple instruments , 2005 .

[21] R. Flagan. On Differential Mobility Analyzer Resolution , 1999 .

[22] A. Wiedensohler,et al. An approximation of the bipolar charge distribution for particles in the submicron size range , 1988 .

[23] Donald E. Hagen,et al. Linear inversion method to obtain aerosol size distributions from measurements with a differential mobility analyzer , 1983 .

[24] H. Wichmann,et al. Variation of particle number and mass concentration in various size ranges of ambient aerosols in Eastern Germany , 1997 .

[25] K. T. Whitby,et al. Aerosol classification by electric mobility: apparatus, theory, and applications , 1975 .

[26] David Y. H. Pui,et al. Measurement of 100 nm and 60 nm Particle Standards by Differential Mobility Analysis , 2006, Journal of research of the National Institute of Standards and Technology.

[27] G. M. Frick,et al. Ion—Aerosol Attachment Coefficients and the Steady-State Charge Distribution on Aerosols in a Bipolar Ion Environment , 1986 .

[28] Peter H. McMurry,et al. An Ultrafine Aerosol Condensation Nucleus Counter , 1991 .

[29] Peter Sturm,et al. Aerosol and NO x emission factors and submicron particle number size distributions in two road tunnels with different traffic regimes , 2005 .

[30] H. G. Scheibel,et al. Generation of monodisperse Ag- and NaCl-aerosols with particle diameters between 2 and 300 nm , 1983 .

[31] T. Müller,et al. In situ measurements of optical properties at Tinfou (Morocco) during the Saharan Mineral Dust Experiment SAMUM 2006 , 2009 .

[32] N. Fuchs,et al. On the stationary charge distribution on aerosol particles in a bipolar ionic atmosphere , 1963 .

[33] Richard C. Flagan,et al. Scanning Electrical Mobility Spectrometer , 1989 .

[34] Albert Ansmann,et al. A case of extreme particulate matter concentrations over Central Europe caused by dust emitted over the southern Ukraine , 2008 .

[35] J. Mäkelä,et al. Closed-loop arrangement with critical orifice for DMA sheath/excess flow system , 1997 .

[36] Detlef Hummes,et al. Experimental Comparison of Four Differential Mobility Analyzers for Nanometer Aerosol Measurements , 1996 .

[37] M. Karlsson,et al. Methods to measure and predict the transfer function size dependence of individual DMAs , 2003 .

[38] David Y. H. Pui,et al. Slip Correction Measurements of Certified PSL Nanoparticles Using a Nanometer Differential Mobility Analyzer (Nano-DMA) for Knudsen Number From 0.5 to 83 , 2005, Journal of research of the National Institute of Standards and Technology.

[39] Pasi Aalto,et al. One-Year Data of Submicron Size Modes of Tropospheric Background Aerosol in Southern Finland , 2000 .

[40] W. A. Hoppel. Determination of the aerosol size distribution from the mobility distribution of the charged fraction of aerosols , 1978 .

[41] D. Covert,et al. Particle Charging and Transmission Efficiencies of Aerosol Charge Neutralizes , 1997 .

[42] Da-Ren Chen,et al. Measurement of Atlanta Aerosol Size Distributions: Observations of Ultrafine Particle Events , 2001 .

[43] Heinz Fissan,et al. Determination of particle size distributions by means of an electrostatic classifier , 1983 .

[44] F. Stratmann,et al. A new data inversion algorithm for DMPS-measurements , 1996 .

[45] R. Gunn,et al. THE HYPERELECTRIFICATION OF RAINDROPS BY ATMOSPHERIC ELECTRIC FIELDS , 1956 .

[46] A. Wiedensohler,et al. DESIGN OF A DMA-BASED SIZE SPECTROMETER FOR A LARGE PARTICLE SIZE RANGE AND STABLE OPERATION , 1999 .