Experimental Investigation on Emissions Characteristics from Urban Bus Fueled with Diesel, Biodiesel and an Oxygenated Additive from Residual Glycerin from Biodiesel Production

Carmen C Barrios,Paloma Álvarez-Mateos,David Díez,Juan Francisco García-Martín,Ana Urueña

doi:10.3390/pr9060987

Abstract

The aim of the study was to assess the influence of the addition of an oxygenated additive (a mixture of mono-, di- and triacetylglycerol obtained from residual glycerin within the biodiesel production scheme) on the specific fuel consumption and exhaust emissions of a EURO 3 diesel bus during its daily route through the city. To do this, the urban bus was fuelled with five fuel blends of diesel (D), biodiesel (B), additive (A) and heptanol as co-surfactant (H). A portable emissions measurement system was used to measure the exhaust gases while an engine exhaust particle system with a dilution system, both installed on the urban bus, was used for nanoparticles measurement in actual operating conditions through the city of Seville. Results showed that B95A5 (95%v/v biodiesel, 5%v/v additive) and B90A10 were the blends that most increased NOx emissions (by 24.12% and 9.85%, respectively) compared to D100. On the other hand, B47.5D47.5A2.5H2.5 was the blend that most reduced total particle number (by 31.6%) and NOx emissions (by 12%). All in all, the oxygenated additive can be efficiently blended with biodiesel to reduce particle emissions from engines without diesel particle filter, such as those in urban buses in many European cities.

Highlights

The United Kingdom and the European Union plan to accelerate a greener transport future
As explained in the experimental design in Materials and Methods section, three actives routes in Seville city were run in actual operating conditions using an Iveco Cityclass diesel bus that complies with Euro 3 regulations with five fuel blends
The lowest fuel consumption (SFC) was observed for the B47.5D47.5A2.5H2.5 blend (Figure 4) while the highest was the B90A10 blend. This may be due to the influence of the lower heating value (LHV) and the interaction between the thermodynamic properties of the different components of the fuel blends [32]

Summary

Introduction

The United Kingdom and the European Union plan to accelerate a greener transport future. Diesel buses still represent the largest part of the urban bus fleet in European cities Some of these cities keep old buses that meet Euro 3 regulations within their urban transport fleet. In the case of Seville (Spain) around 40% of the urban bus fleet for public transport circulates across the city with this Euro 3 regulation, while using conventional diesel as fuel. This represents a significant emission of polluting gases such as NOx , CO and total hydrocarbons (THC) and a relevant amount of particles, which is the main problem of this engine technology [4]

Objectives

Methods

Results

Conclusion