Influences of re-entrant combustion chamber geometry on the performance of Pongamia biodiesel in a DI diesel engine

• Published in: Energy (Oxford) Vol. 44; no. 1; pp. 633 - 640
• Main Authors: Jaichandar, S., Annamalai, K.
• Format: Journal Article
• Language: English
• Published: Kidlington Elsevier Ltd 01.08.2012; Elsevier
• Subjects: Applied sciences; Biodiesel; Blends; Combustion; Combustion chamber; Combustion chambers; Cylinders; Delay; Diesel engine; Diesel engines; diesel fuel; Emissions; Energy; energy use and consumption; Engines; Exact sciences and technology; nitrogen oxides; oils; Particulates; petroleum; pistons; Pongamia; Diesel engine; Combustion chamber; Performance; Biodiesel; Emissions
• ISSN: 0360-5442
• DOI: 10.1016/j.energy.2012.05.029

In this experimental study, the influences of re-entrant combustion chamber geometry on a diesel engine emission, performance and on the combustion were investigated using Pongamia Oil Methyl Ester (POME). For this purpose, the pistons with Toroidal Re-entrant Combustion Chamber (TRCC) and Shallow Depth Re-entrant Combustion Chamber having the same volume as that of the baseline Hemispherical open Combustion Chamber were tested in a four stroke, single cylinder, DI diesel engine. Two fuels namely, 20 percent POME blend (20% POME) with petroleum based diesel fuel (PBDF) and PBDF were used for this study. The test results for re-entrant type combustion chambers fuelled with 20% POME and PBDF were compared with baseline engine having hemispherical open type combustion chamber operated with PBDF and 20% POME blend. The test results showed that substantially higher brake thermal efficiency and lower specific fuel consumption for TRCC compared to baseline engine fuelled with 20% POME. Sharp reduction of particulates, CO and UBHC were observed for TRCC compared to the other two. However oxides of nitrogen (NOx) were higher for TRCC. The combustion analysis shows that, the ignition delay is lower for TRCC compared to baseline engine and the peak pressure is also higher at full load. [Display omitted] ► Investigates the effects of re-entrant combustion chambers for biodiesel operation. ► Toroidal re-entrant (TRCC), Shallow depth re-entrant (SRCC) and Hemispherical (HCC) combustion chambers were used. ► Tests were carried out using a blend of 20% Pongamia biodiesel with diesel and diesel. ► Test results showed that improved performance and emission characteristics for TRCC. ► TRCC has shown better combustion characteristics due to improved air-fuel mixing.