Ion enrichment in aerosols produced by conventional nebulizers used in analytical atomic spectroscopy

Dillard, John Henry

12 1900

No description available.

Ions

Atomic absorption spectroscopy

Aerosols

Models of aerosol backscatter, extinction and absorption profiles for desert aerosols based on aircraft instrument and ground-based lidar measurements

Ouellet, Jeffrey Ovide

12 1900

No description available.

Atmospheric chemistry

Remote sensing

Aerosols

Study of Enhanced Deposition due to Magnetic Field Alignment of Ellipsoid Particles Using Direct Numerical Simulations

Martinez, Roberto Carlos

Unknown Date

No description available.

Aerosols

Numerical Method

Targeting

Deposition

Corrosion of cold-rolled carbon steel by ammonium sulfate aerosols under various atmospheric pollutant conditions

Martin, Louis Joseph

08 1900

No description available.

Steel Corrosion

Aerosols

Ammonium sulphate

Direct aerosol radiative forcing based on measurements of aerosol radiative, chemical and physical properties in China

Xu, Jin

05 1900

No description available.

Atmospheric radiation China

Aerosols China

Azaarenes as contaminants of the urban atmosphere

Chen, Hung-Yu

January 1997

No description available.

628.53

Aerosols; Polycyclic aromatic compounds

Solar radiation transfer, including the effect of aerosol using the delta-Eddington approximation

Grondin, Louise.

January 1980

No description available.

Solar radiation.

Aerosols.

Atmospheric chemistry.

Chemical Composition Fluctuations in the Gaseous and Particulate Phases of Urban Aerosols

Godri, Krystal

25 July 2008

From June 2006 to March 2007, the concentrations of water soluble inorganic particulates and their associated precursor gases were semi-continuously measured adjacent to a high traffic street in downtown Toronto, Canada. Measurements underwent extensive quality assurance and control protocols. Seasonal and diurnal variations in HNO3 and NH3 partitioning to NH4NO3 were observed. Long range transported air masses from southwest of Toronto were the predominant source of measured SO4 2- for all seasons. The contributing sources of PM2.5 nitrate mass fluctuated between seasons: pNO3- was predominantly locally derived in the summer and resulted from long range transport in the winter. Comparison between measurements and ISORROPIA thermodynamic model predictions identified model weaknesses and was used to explore the effect of modulating primary gas concentrations on consequent particulate levels. SO2 emissions reductions were the most influential and direct method to reduce overall PM2.5 concentrations; however, limiting ammonia emissions was also another successful strategy.

urban aerosols

aerosol chemistry

0542

Chemical Composition Fluctuations in the Gaseous and Particulate Phases of Urban Aerosols

Godri, Krystal

25 July 2008

From June 2006 to March 2007, the concentrations of water soluble inorganic particulates and their associated precursor gases were semi-continuously measured adjacent to a high traffic street in downtown Toronto, Canada. Measurements underwent extensive quality assurance and control protocols. Seasonal and diurnal variations in HNO3 and NH3 partitioning to NH4NO3 were observed. Long range transported air masses from southwest of Toronto were the predominant source of measured SO4 2- for all seasons. The contributing sources of PM2.5 nitrate mass fluctuated between seasons: pNO3- was predominantly locally derived in the summer and resulted from long range transport in the winter. Comparison between measurements and ISORROPIA thermodynamic model predictions identified model weaknesses and was used to explore the effect of modulating primary gas concentrations on consequent particulate levels. SO2 emissions reductions were the most influential and direct method to reduce overall PM2.5 concentrations; however, limiting ammonia emissions was also another successful strategy.

urban aerosols

aerosol chemistry

0542

Aerosol contributions to atmospheric heating

Blanchet, J. P. (Jean-Pierre), 1951-

January 1979

No description available.

Aerosols -- Mathematical models.

Atmospheric thermodynamics.