Add to ORKGThe concentration and size of particulate matter (PM) in atmosphere have a severe impact on human health. Diesel vehicle engines generate great abundant nanoparticles. The large eddy simulation (LES) was combined with the equations of nucleation and coagulation to study the flow structure and the formation of pollutant nanoparticles H 2SO 4 droplets in the flow around an on-road two tailpipes sedan. The effects of different ambient wind speeds and exhaust gas speeds on the particle number concentration and size distributions have been studied. The results show that the ratio of the ambient wind velocity to exhaust gas velocity greatly affect the flow structure, and further affect the nanoparticle concentration and size distribution. A highe...
Understanding the fate of ultrafine particles (UFP), especially from combustion sources, is essentia...
Recently concerns about possible increases in emissions of ultrafine and nanoparticles and their env...
The distributions of nanoparticles (below 300 nm in diameter) change rapidly after emission from the...
In the present study, the interaction effects of different sulfur contents, relative humidities, dri...
AbstractExposure to nanoparticles coming from road–traffic concerns a large part of urban population...
The pollutant dispersion behavior from the vehicular exhaust plume has a direct impact on human heal...
Understanding the transformation of nanoparticles emitted from vehicles is essential for developing ...
The Reynolds averaged N-S equation and dynamic equation for nanoparticles are numerically solved in ...
The aim of the work presented here is to study experimentally and numerically the dispersion charact...
An integrated experimental methodology has been applied to measure number and size distributions of ...
The characteristics of particle number and size distributions ranging from 15 nm to 30 μm along the ...
A three-dimensional large eddy simulation (LES) of flow structures and pollutant dispersion in the n...
<p>Particulate matter is formed during incomplete combustion in modern diesel and gasoline engines. ...
Particulate emissions from road transportation are known to have an adverse impact on human health a...
AbstractTiny smoke particles that are typically emitted today from a variety of vehicles are of majo...
Understanding the fate of ultrafine particles (UFP), especially from combustion sources, is essentia...
Recently concerns about possible increases in emissions of ultrafine and nanoparticles and their env...
The distributions of nanoparticles (below 300 nm in diameter) change rapidly after emission from the...
In the present study, the interaction effects of different sulfur contents, relative humidities, dri...
AbstractExposure to nanoparticles coming from road–traffic concerns a large part of urban population...
The pollutant dispersion behavior from the vehicular exhaust plume has a direct impact on human heal...
Understanding the transformation of nanoparticles emitted from vehicles is essential for developing ...
The Reynolds averaged N-S equation and dynamic equation for nanoparticles are numerically solved in ...
The aim of the work presented here is to study experimentally and numerically the dispersion charact...
An integrated experimental methodology has been applied to measure number and size distributions of ...
The characteristics of particle number and size distributions ranging from 15 nm to 30 μm along the ...
A three-dimensional large eddy simulation (LES) of flow structures and pollutant dispersion in the n...
<p>Particulate matter is formed during incomplete combustion in modern diesel and gasoline engines. ...
Particulate emissions from road transportation are known to have an adverse impact on human health a...
AbstractTiny smoke particles that are typically emitted today from a variety of vehicles are of majo...
Understanding the fate of ultrafine particles (UFP), especially from combustion sources, is essentia...
Recently concerns about possible increases in emissions of ultrafine and nanoparticles and their env...
The distributions of nanoparticles (below 300 nm in diameter) change rapidly after emission from the...