Enhancing the NO_x and soot emissions reduction benefits of a low compression ratio light duty diesel engine by optimization of piston bowl design

Abstract: In the present work, the benefits of the low compression ratio (LCR) concept on simultaneous reduction of oxides of nitrogen (NOx) and soot emissions could be further enhanced by optimizing the piston bowl design using a 3-dimensional computational fluid dynamics (CFD) tool. A single-cylinder, direct-injection diesel engine was used for the present investigations. In its mass-production version, the engine had a compression ratio (CR) of 18:1 that was considered as the stock CR from which the LCR variants were… Show more

“…Various methods have been used to reduce the nitrogen oxides' concentration, such as: (i) applying the exhaust gas recirculation valves technology, (ii) use of various catalysts, (iii) utilization of particle filters, (iv) addition of hydrogen in the fuel and air mixture. Some solutions were more or less successful [6][7][8][9].…”

Research regarding water and methanol injection upon the physical parameters of emissions’ concentration values on a compression ignition engine

“…Various methods have been used to reduce the nitrogen oxides' concentration, such as: (i) applying the exhaust gas recirculation valves technology, (ii) use of various catalysts, (iii) utilization of particle filters, (iv) addition of hydrogen in the fuel and air mixture. Some solutions were more or less successful [6][7][8][9].…”

Research regarding water and methanol injection upon the physical parameters of emissions’ concentration values on a compression ignition engine

Recent advancements in water emulsion fuel to explore efficient and cleaner production from various biodiesels: A retrospective review