Impact of Fuel Properties on GDI Injector Deposit Formation and Particulate Matter Emissions

Abstract The influence of fuel properties on particulate matter (PM) emissions from a catalytic gasoline particulate filter (GPF) equipped gasoline direct injection (GDI) engine were investigated using novel “virtual drivetrain” software and an engine mated to an engine dynamometer. The virtual drivetrain software was developed to operate the engine on an engine dynamometer as if it were in a vehicle undergoing a driving cycle. The software uses a physics-based approach to determine vehicle acceleration and speed based on engine load and a programed “shift” schedule to control engine speed. The first 200 seconds of the WLTP driving cycle was tested using 6 different fuel formulations of varying volatility, aromaticity, and ethanol concentration. It was found that there was a strong correlation between aromaticity of the fuel and the engine-out PM emissions, with the highest emitting fuel producing more than double the mass emissions of the low PM production fuel. However, the post-GPF PM emissions depended greatly on the soot loading state of the GPF. The fuel with the highest engine-out PM emissions produced comparable post-GPF emissions to the lowest PM producing fuel over the driving cycle when the GPF was loaded over three cycles with the respective fuels. These results demonstrate the importance of GPF loading state when aftertreatment systems are used for PM reduction. It also shows that GPF control may be more important than fuel properties, and that regulatory compliance for PM can be achieved with proper GPF control calibration irrespective of fuel type.

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Effectiveness of battery electric vehicle promotion on particulate matter emissions reduction

Transportation Research Part D Transport and Environment ◽

10.1016/j.trd.2021.102758 ◽

2021 ◽

Vol 93 ◽

pp. 102758

Author(s):

Hyunhong Choi ◽

Yoonmo Koo

Keyword(s):

Particulate Matter ◽

Electric Vehicle ◽

Emissions Reduction ◽

Battery Electric Vehicle ◽

Particulate Matter Emissions

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Volatile organic compound and particulate matter emissions from an ultrasonic essential oil diffuser

Indoor Air ◽

10.1111/ina.12845 ◽

2021 ◽

Author(s):

Heather Schwartz‐Narbonne ◽

Bowen Du ◽

Jeffrey A. Siegel

Keyword(s):

Particulate Matter ◽

Organic Compound ◽

Essential Oil ◽

Volatile Organic Compound ◽

Volatile Organic ◽

Particulate Matter Emissions

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Theoretical equilibration time is supported by measurement study of residence time at dilution sampling on fine particulate matter emissions from household biofuel burning

Chemosphere ◽

10.1016/j.chemosphere.2020.129178 ◽

2021 ◽

Vol 267 ◽

pp. 129178

Author(s):

Xinghua Li ◽

Kaiqiang Yang ◽

Zihao Wang ◽

Yan Xie ◽

Philip K. Hopke ◽

...

Keyword(s):

Particulate Matter ◽

Residence Time ◽

Fine Particulate Matter ◽

Equilibration Time ◽

Measurement Study ◽

Fine Particulate ◽

Particulate Matter Emissions

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Assessment of Environmental Risks of Particulate Matter Emissions from Road Transport Based on the Emission Inventory

Applied Sciences ◽

10.3390/app11136123 ◽

2021 ◽

Vol 11 (13) ◽

pp. 6123

Author(s):

Katarzyna Bebkiewicz ◽

Zdzisław Chłopek ◽

Hubert Sar ◽

Krystian Szczepański ◽

Magdalena Zimakowska-Laskowska

Keyword(s):

Particulate Matter ◽

Legal Status ◽

Monitoring And Evaluation ◽

Road Transport ◽

Solid Particles ◽

Pollutant Emissions ◽

European Economic Area ◽

Engine Exhaust ◽

Exhaust Gases ◽

Particulate Matter Emissions

The aim of this study is to investigate the environmental hazards posed by solid particles resulting from road transport. To achieve this, a methodology used to inventory pollutant emissions was used in accordance with the recommendations of the EMEP/EEA (European Monitoring and Evaluation Programme/European Economic Area). This paper classifies particulates derived from road transport with reference to their properties and sources of origin. The legal status of environmental protection against particulate matter is presented. The emissions of particulate matter with different properties from different road transport sources is examined based on the results of Poland’s inventory of pollutant emissions in the year 2018. This study was performed using areas with characteristic traffic conditions: inside and outside cities, as well as on highways and expressways. The effects of vehicles were classified according to Euro emissions standards into the categories relating to the emissions of different particulate matter types. The results obtained showed that technological progress in the automobile sector has largely contributed to a reduction in particulate matter emissions associated with engine exhaust gases, and that this has had slight effect on particulate matter emissions associated with the tribological processes of vehicles. The conclusion formed is that it is advisable to undertake work towards the control and reduction of road transport particulate matter emissions associated with the sources other than engine exhaust gases.

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Particulate matter emissions from flex-fuel vehicles with direct fuel injection

Atmospheric Pollution Research ◽

10.1016/j.apr.2021.101078 ◽

2021 ◽

pp. 101078

Author(s):

Luiz C. Daemme ◽

Renato Penteado ◽

Rodrigo S. Ferreira ◽

Marcelo R. Errera ◽

Sergio M. Corrêa ◽

...

Keyword(s):

Particulate Matter ◽

Fuel Injection ◽

Particulate Matter Emissions ◽

Flex Fuel ◽

Direct Fuel Injection

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Spectrochemical Analytical Characterisation of Particulate Matter Emissions Generated from In-Use Diesel Engine Vehicles

Environmental Sciences Proceedings ◽

10.3390/ecas2020-08468 ◽

2020 ◽

Vol 4 (1) ◽

pp. 18

Author(s):

Richard Viskup ◽

Yana Vereshchaga ◽

Anna Theresia Stadler ◽

Theresa Roland ◽

Christoph Wolf ◽

...

Keyword(s):

Particulate Matter ◽

Diesel Engine ◽

Metallic Nanoparticles ◽

Chemical Elements ◽

Major Elements ◽

Pollutant Emissions ◽

Analytical Technique ◽

Breakdown Spectroscopy ◽

Particulate Matter Emissions ◽

Laser Induced Breakdown

Pollutant emissions from vehicles form major sources of metallic nanoparticles entering the environment and surrounding atmosphere. In this research, we spectrochemically analyse the chemical composition of particle matter emissions from in-use diesel engine passenger vehicles. We extracted diesel particulate matter from the end part of the tail pipes of more than 70 different vehicles. In the laboratory, we used the high-resolution laser-induced breakdown spectroscopy (LIBS) spectrochemical analytical technique to sensitively analyse chemical elements in different DPM samples. We found that PM is composed of major, minor and trace chemical elements. The major compound in PM is not strictly carbon but also other adsorbed metallic nanoparticles such as iron, chromium, magnesium, zinc and calcium. Besides the major elements in DPM, there are also minor elements: silicon, nickel, titan, potassium, strontium, molybdenum and others. Additionally, in DPM are adsorbed atomic trace elements like barium, boron, cobalt, copper, phosphorus, manganese and platinum. All these chemical elements form the significant atomic composition of real PM from in-use diesel engine vehicles.

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