doi:10.1080/02786826.2010.486386

Paper Title

CrossRef citations to date 0 Altmetric Listen Regular Articles Toxic Potential Evaluation of Particulate Matter Emitted from a Constant Speed Compression Ignition Engine: A Comparison between Straight Vegetable Oil and Mineral Diesel

Authors

Avinash Kumar Agarwal

Tarun Gupta

Abhishek Kothari

Keywords

Particulate Matter
Engine Exhaust
Diesel
Straight Vegetable Oil
SVO
Compression Ignition Engine
Benzene Soluble Organic Fraction
BSOF
Metal Traces
Particulate Surface Morphology
Engine Load
Engine Speed
Chemical Constituents
Toxic Potential
Preheating
Viscosity Reduction
Mineral Diesel
Toxic Metal Emissions
Soot Formation
Emission Comparison
Vegetable Oil

Article Type

Research Article

Journal

Aerosol Science and Technology

Research Impact Tools

DOI

10.1080/02786826.2010.486386

Issue

Volume : 44 | Issue : 9 | Page No : 724-733

Published On

August, 2009

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Abstract

This study was primarily focused on analyzing particulate matter coming out of engine exhaust from diesel and straight vegetable oils (SVO) for the following parameters: (1) Benzene soluble organic fraction (BSOF), (2) Metal traces, and (3) Particulate surface morphology. Hence, the exhaust from a small compression ignition (CI) engine emitted under varying engine load conditions at constant engine speed was extensively analyzed for its chemical constituents and PM morphology. Two fuels, namely mineral diesel and straight vegetable oil, were tested with this engine and the engine emissions were compared in order to assess their relative toxic potential. One of the major findings of this study suggested that by preheating, viscosity of vegetable oil can be lowered to the level of mineral diesel, and vegetable oil gives better particulate emission results than mineral diesel in terms of lower toxic metal emissions as well as less soot formation.