Aerosol Science and Technology

Journal: Aerosol Science and Technology

Abbreviation

Aerosol Sci. Tech.

Publisher

Taylor & Francis

ISSN

0278-6826
1521-7388

Show all metadata

Search Results

Publications 1 - 10 of 50

Structural Property Effect of Nanoparticle Agglomerates on Particle Penetration through Fibrous Filter
Kim, Seong C.; Wang, Jing; Emery, Mark S.; et al. (2009)
Aerosol Science and Technology
Bias in Filter-Based Aerosol Light Absorption Measurements Due to Organic Aerosol Loading: Evidence from Ambient Measurements
Lack, Daniel A.; Cappa, Christopher D.; Covert, David S.; et al. (2008)
Aerosol Science and Technology
Optimizing Filtration Experiments for Length and Fractal Dimension Characterization of Non- Spherical Particles
Chen, Sheng-Chieh; Wang, Jing; Fissan, Heinz; et al. (2015)
Aerosol Science and Technology
A thermophoretic precipitator for the representative collection of atmospheric ultrafine particles for microscopic analysis
Lorenzo, R.; Kaegi, R.; Gehrig, R.; et al. (2007)
Aerosol Science and Technology
Organic Emissions from a Wood Stove and a Pellet Stove Before and After Simulated Atmospheric Aging
Corbin, Joel C.; Keller, Alejandro; Lohmann, Ulrike; et al. (2015)
Aerosol Science and Technology
Chemical Aerosol Engineering as a Novel Tool for Material Science: From Oxides to Salt and Metal Nanoparticles
Athanassiou, Evagelos K.; Grass, Robert N.; Stark, Wendelin J. (2010)
Aerosol Science and Technology
Aerosol nanotechnology has rapidly evolved in the past years. This fascinating technology has resulted in the development of functional nanomaterials providing novel solutions in industrial applications. The extensive research on the physical understanding of gas phase processes has strongly contributed to the present industrial use of single and mixed oxides and the design of industrial aerosol reactors. Recent advances have shown that chemical aerosol engineering can be established on the interface between classical aerosol science and chemical engineering. The emerging new methods give access to a much broader class of functional materials including salt and metal nanoparticles. The latter implies that aerosol production units can now be considered as chemical reactors. The incorporation of thermodynamic considerations and chemical kinetics in the modelling of gas phase processes will further boost the development of aerosol engineering and will provide deeper understanding of the fundamentals of particle formation mechanisms. This will ultimately enable access to new multi-component materials with various structures or morphologies and the development of more sustainable, energy efficient gas phase processes.
Ice nucleation studies of mineral dust particles with a new continuous flow diffusion chamber
Salam, Abdus; Lohmann, Ulrike; Crenna, Brian; et al. (2006)
Aerosol Science and Technology
A Simple Model for the Evolution of the Characteristics of Aggregate Particles undergoing Coagulation and Sintering
Kruis, F. Einar; Kusters, Karl A.; Pratsinis, Sotiris E.; et al. (1993)
Aerosol Science and Technology
Response of Real-Time Black Carbon Mass Instruments to Mini-CAST Soot
Durdina, Lukas; Lobo, Prem; Trueblood, Max B.; et al. (2016)
Aerosol Science and Technology
Sintering Time for Silica Particle Growth
Tsantilis, Stavros; Briesen, Heiko; Pratsinis, Sotiris E. (2001)
Aerosol Science and Technology

Publications 1 - 10 of 50

Journal: Aerosol Science and Technology

Abbreviation

Publisher

Journal Volumes

ISSN

Description

Filters

Search Results