We have studied exhaust particle-size distribution of a heavy-duty diesel vehicle in the laboratory and on road. The vehicle was equipped with an oxidation catalyst and fulfilled the Euro 3 emission standard. Special attention was paid to the characteristics and formation tendency of nucleation mode. On road, the nucleation mode formed already 5 m behind the vehicle and did not change significantly when the chase distance was doubled. The meteorological parameters were found to affect nucleation mode particle formation: low temperature and high relative humidity favour the formation. In addition, the nucleation mode mean diameter and concentration are affected by engine torque. This behaviour was found to be identical both on road and in la...
Real-world driving consist mostly of transients, where the engine parameters are constantly changing...
The main objective of this study was to find out how the non-road diesel engine running period of 50...
A new exhaust aerosol model CFD-TUTEAM (Tampere University of Technology Exhaust Aerosol Model for C...
The characteristics of the nucleation mode particles of a Euro IV heavy-duty diesel vehicle exhaust ...
Traffic is one of the most important sources of particulate pollution and its role is emphasized esp...
Sulfur driven diesel exhaust nucleation particle formation processes were studied in an aerosol labo...
Epidemiological studies have shown a correlation between exposure to diesel exhaust aerosols and hea...
xix, 205 leaves : ill. (some col.) ; 30 cm.PolyU Library Call No.: [THS] LG51 .H577M ME 2003 WongThe...
Exhaust gas particle and ion size distributions were measured from an off-road diesel engine complyi...
Particle size distribution measurement with direct tailpipe sampling is employed to study the effect...
A high concentration of volatile nucleation mode particles (NUP) formed in the atmosphere when the e...
Heavy duty diesel engine exhaust characteristics were studied with direct tailpipe sampling on an en...
The characteristics of particle number and size distributions ranging from 15 nm to 30 μm along the ...
Exhaust emissions from diesel vehicles are significant sources of air pollution. In this study, part...
Particle emissions from a turbo-charged diesel off-road engine were characterized with DMA + CNC and...
Real-world driving consist mostly of transients, where the engine parameters are constantly changing...
The main objective of this study was to find out how the non-road diesel engine running period of 50...
A new exhaust aerosol model CFD-TUTEAM (Tampere University of Technology Exhaust Aerosol Model for C...
The characteristics of the nucleation mode particles of a Euro IV heavy-duty diesel vehicle exhaust ...
Traffic is one of the most important sources of particulate pollution and its role is emphasized esp...
Sulfur driven diesel exhaust nucleation particle formation processes were studied in an aerosol labo...
Epidemiological studies have shown a correlation between exposure to diesel exhaust aerosols and hea...
xix, 205 leaves : ill. (some col.) ; 30 cm.PolyU Library Call No.: [THS] LG51 .H577M ME 2003 WongThe...
Exhaust gas particle and ion size distributions were measured from an off-road diesel engine complyi...
Particle size distribution measurement with direct tailpipe sampling is employed to study the effect...
A high concentration of volatile nucleation mode particles (NUP) formed in the atmosphere when the e...
Heavy duty diesel engine exhaust characteristics were studied with direct tailpipe sampling on an en...
The characteristics of particle number and size distributions ranging from 15 nm to 30 μm along the ...
Exhaust emissions from diesel vehicles are significant sources of air pollution. In this study, part...
Particle emissions from a turbo-charged diesel off-road engine were characterized with DMA + CNC and...
Real-world driving consist mostly of transients, where the engine parameters are constantly changing...
The main objective of this study was to find out how the non-road diesel engine running period of 50...
A new exhaust aerosol model CFD-TUTEAM (Tampere University of Technology Exhaust Aerosol Model for C...