Add to ORKGNumerical simulations were performed to investigate convection, diffusion and thermophoretic transport of aerosol particles inside a particulate probe used for intrusive sampling of jet engine exhaust gases. Particulate losses occurring inside the probe due to diffusion and thermophoresis were quantified. The model was tested against results from previous theoretical and experimental investigations and was found to be reasonably accurate
In this communication we have examined the presence of nanoparticles in laminar premixed ethylene fl...
Core sampling method (extracting a portion of a flow from the core of the flow) will reduce diffusio...
International audienceThis study aims at numerical simulation of nanoparticle transport in flue-gas ...
Thermophoretic and diffusional losses that occur inside an aerosol sampling probe which is used for ...
Abstract The 1-dimentional model of aerosol process which includes a hot aerosol stream flowing thro...
Considerable attention has been recently received on the impact of aircraft-produced aerosols upon t...
Thermophoresis is the phenomenon by which sub-micron particles suspended in a gas move in the direct...
Thermophoretic effect on particle deposition velocity onto an inverted flat surface was numerically ...
The thermophoretic deposition of limestone particles onto a cold plate above which a temperature gra...
An aerosol gas exchange system (AGES) for nanoparticle sampling at elevated temperatures was develop...
A new thermophoretic precipitator (TP) has been designed and used for the collection of nanosized ae...
A new approach is described to capture nano-size aerosols on internally-cooled micro tubing of the s...
Deposition of fine particles is acknowledged as a concern in various processes. Previous studies hav...
Aerosol particle deposition rates on surfaces inside a clean room are predicted by a model developed...
Core sampling method (extracting a portion of a flow from the core of the flow) will reduce diffusio...
In this communication we have examined the presence of nanoparticles in laminar premixed ethylene fl...
Core sampling method (extracting a portion of a flow from the core of the flow) will reduce diffusio...
International audienceThis study aims at numerical simulation of nanoparticle transport in flue-gas ...
Thermophoretic and diffusional losses that occur inside an aerosol sampling probe which is used for ...
Abstract The 1-dimentional model of aerosol process which includes a hot aerosol stream flowing thro...
Considerable attention has been recently received on the impact of aircraft-produced aerosols upon t...
Thermophoresis is the phenomenon by which sub-micron particles suspended in a gas move in the direct...
Thermophoretic effect on particle deposition velocity onto an inverted flat surface was numerically ...
The thermophoretic deposition of limestone particles onto a cold plate above which a temperature gra...
An aerosol gas exchange system (AGES) for nanoparticle sampling at elevated temperatures was develop...
A new thermophoretic precipitator (TP) has been designed and used for the collection of nanosized ae...
A new approach is described to capture nano-size aerosols on internally-cooled micro tubing of the s...
Deposition of fine particles is acknowledged as a concern in various processes. Previous studies hav...
Aerosol particle deposition rates on surfaces inside a clean room are predicted by a model developed...
Core sampling method (extracting a portion of a flow from the core of the flow) will reduce diffusio...
In this communication we have examined the presence of nanoparticles in laminar premixed ethylene fl...
Core sampling method (extracting a portion of a flow from the core of the flow) will reduce diffusio...
International audienceThis study aims at numerical simulation of nanoparticle transport in flue-gas ...