Effect of fuel quality on combustion evolution and particle emissions from PFI and GDI engines fueled with gasoline, ethanol and blend, with focus on 10–23 nm particles

Effect of fuel quality on combustion evolution and particle emissions from PFI and GDI engines fueled with gasoline, ethanol and blend, with focus on 10–23 nm particles

The European Commission is planning to lower the particle cut off size down to 10 nm to consider the contribution of the sub-23 nm particles. Within the European project Sureal-23, a comprehensive study on the sub-23 nm particles was performed and novel technologies for their sampling and measuremen...

Full description

Saved in:
Bibliographic Details
Published in:Energy (Oxford) Vol. 239; p. 122198
Main Authors: Catapano, Francesco, Di Iorio, Silvana, Magno, Agnese, Vaglieco, Bianca Maria
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 15-01-2022
Elsevier BV
Subjects:
Advanced half mini DMA
Dilution
Emissions
Ethanol
Fuel injection
Gasoline
Injection
Spark ignition
Spark ignition engine
Sub-23 nm particles
Volatile organic fraction
Sub-23 nm particles
Spark ignition engine
Ethanol
Advanced half mini DMA
Volatile organic fraction
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The European Commission is planning to lower the particle cut off size down to 10 nm to consider the contribution of the sub-23 nm particles. Within the European project Sureal-23, a comprehensive study on the sub-23 nm particles was performed and novel technologies for their sampling and measurement were developed. One new proposed instrument, the Half Mini Differential Mobility Analyser (HM-DMA), was used in the present study. The investigation was carried out on a small direct/port fuel injection, spark ignition engine fueled with gasoline, ethanol and a 30 %v/v ethanol blend. Results highlighted a general reduction of the number and the size of the particles emitted by pure ethanol. The effect of the ethanol blend on sub-23 nm particle emissions was affected by the operating condition and the injection strategy. The extent of the VOF depends on the fuels as well as on the engine configuration and operating condition. Some differences were noted between the results from EEPS and HM-DMA ascribable to the different measurement principle and to the processes occurring in the dilution system. •Measure of the particles in the size range 10–23 nm.•A novel instrument for sub-23 nm particle emissions was employed.•Effect of sampling condition temperature on sub-23 nm particles was analyzed.•Volatile organic fraction of sub-23 nm particles emitted by both PFI and GDI SI engines was evaluated.•Particles emitted by gasoline, ethanol and a 30 %v/v of ethanol blend were compared.
ISSN:0360-5442
1873-6785
DOI:10.1016/j.energy.2021.122198