Particulate matter analysis from engine outlet in heavy duty vehicles: A study of soot reactivity, morphology and ash-to-soot ratio from the outlet of 6-cylinder and 8-cylinder diesel engines

The rise in air pollution in Europe is a pressing environmental health concern, and road transport is a major contributor. To address this issue and meet new emission standards, exhaust aftertreatment systems must be improved. Understanding the composition, properties, and amount of particulate matter (PM) produced by diesel engines is critical for reducing PM emissions with the diesel particulate filter (DPF). This research provides an in-depth analysis of PM emissions produced by heavy-duty diesel engines, with focus on understanding the sources of PM emissions, their impact on the structure and on the reactivity of the PM. Various filters to collect the particulate were employed and critically analysed. Furthermore, an extraction procedure to remove the PM from the filters was developed and discussed. Ash to soot ratio and kinetic oxidation parameters have been investigated for several samples deriving from 6-cylinder and 8-cylinder engines during different operational cycles. Morphological features of ash and soot were investigated with SEM. The ash fraction was estimated to lie between 3 and 23 percent in the total PM composition. Ash elemental composition was carried out through EDS and ICP. Weight loss curves were obtained with TGA and the soot oxidation kinetic parameters were calculated with the non-isothermal multiple-ramp rates method. The activation energies, which were found to be in the range of 138-164 kJ/mol, demonstrated that all of the soot samples tested had a similar reactivity. Further studies are needed to improve the collection and analysis methods in order to achieve reliable results.