The growing concerns on the emission of particles smaller than 23 nm, which are harmful to human health, lead to the necessity of introducing a regulation for these particles not yet included in the current emission standards. Considering that measurements of concentration of sub-23 nm particles are particularly sensitive to the sampling conditions, it is important to identify an effective assessment procedure. Aim of this paper is the characterization of the effect of the sampling conditions on sub-23 nm particles, emitted by PFI (port fuel injection) and DI (direct injection) spark ignition engines fueled with gasoline, ethanol and a mixture of ethanol and gasoline (E30). The experimental activity was carried out on a 250 cm3 displacemen...
As diesel PM regulation gets more stringent, the current gravimetric method which has been used for ...
Direct fuel injection technology is increasingly being applied to the spark ignition internal combus...
In the current vehicle exhaust legislation particle number (PN) limits for solid particles >23 nm ar...
The research on health effects of soot particles has demonstrated their toxic impact on humans, espe...
This study focuses on the measurement of sub-23 nm particles emitted from a small DI/PFI spark ignit...
In the current vehicle exhaust legislation particle number (PN) limits for solid particles >23 nm ar...
A large fraction of the total number of particles emitted by direct injection engines are below the ...
A solid particle number limit was applied to the European legislation for diesel vehicles in 2011. E...
Recent efforts of both researchers and regulators regarding particulate emissions have focused on th...
The European Particle Measurement Program (PMP) defines the current standard for measurement of Part...
Nanoparticle emissions continue to catch the attention because of their adverse health effects and t...
Many countries worldwide have introduced a limit for solid particles larger than 23 nm for the type ...
The University of Minnesota collaborated with the Paul Scherrer Institute, the University of Wiscons...
Engine research has increasingly focused on emission of sub 23 nm particulates in recent years. Like...
As the legislation on vehicle emissions is becoming more and more stringent, increasing attention ha...
As diesel PM regulation gets more stringent, the current gravimetric method which has been used for ...
Direct fuel injection technology is increasingly being applied to the spark ignition internal combus...
In the current vehicle exhaust legislation particle number (PN) limits for solid particles >23 nm ar...
The research on health effects of soot particles has demonstrated their toxic impact on humans, espe...
This study focuses on the measurement of sub-23 nm particles emitted from a small DI/PFI spark ignit...
In the current vehicle exhaust legislation particle number (PN) limits for solid particles >23 nm ar...
A large fraction of the total number of particles emitted by direct injection engines are below the ...
A solid particle number limit was applied to the European legislation for diesel vehicles in 2011. E...
Recent efforts of both researchers and regulators regarding particulate emissions have focused on th...
The European Particle Measurement Program (PMP) defines the current standard for measurement of Part...
Nanoparticle emissions continue to catch the attention because of their adverse health effects and t...
Many countries worldwide have introduced a limit for solid particles larger than 23 nm for the type ...
The University of Minnesota collaborated with the Paul Scherrer Institute, the University of Wiscons...
Engine research has increasingly focused on emission of sub 23 nm particulates in recent years. Like...
As the legislation on vehicle emissions is becoming more and more stringent, increasing attention ha...
As diesel PM regulation gets more stringent, the current gravimetric method which has been used for ...
Direct fuel injection technology is increasingly being applied to the spark ignition internal combus...
In the current vehicle exhaust legislation particle number (PN) limits for solid particles >23 nm ar...