Publication: Utilization of non-edible bio-feedstock Pongamia Pinnata-diethyl ether ternary fuel blend supplemented with graphene oxide nanoparticles on CRDi engine characteristics
Date
2024
Authors
Soudagar M.E.M.
Kiong T.S.
Ramesh S.
Ghazali N.N.N.
Kalam M.A.
Mujtaba M.A.
Venu H.
Nur-E-Alam M.
Ali H.M.
Journal Title
Journal ISSN
Volume Title
Publisher
Springer Science and Business Media B.V.
Abstract
This research addresses the challenges of emission reduction and fuel consumption in engines by investigating modifications in fuel properties using graphene oxide (GO) nanoparticles and diethyl ether as oxygenated additives. Characterization tests were conducted to determine the size, energy, and content of graphene and oxygen molecules in synthesized GO nanoparticles. Pongamia Pinnata Oil Methyl Ester (POME) was prepared through a transesterification process and blended with diesel to obtain a B20 blend. This POME (B20) was further mixed with GO nanoparticles at 40, 80, and 100�mg L-1 concentrations and supplemented with 3�vol% of diethyl ether. The blending process involved stirring, bath sonication, and probe sonication. A Common Rail Direct Injection diesel engine was employed with a toroidal combustion chamber and a 7-hole fuel injector nozzle. The engine maintained a steady speed of 1800�rpm, an injection timing set at 23�bTDC, and a fixed compression ratio of 18.5 while operating under five different loads. At maximum loading conditions, the addition of 100�ppm GO nanoparticles and 5�vol% of Diethyl ether resulted in a 19.7% enhancement in Brake Thermal Efficiency (BTE) and a 10.71% reduction in Brake Specific Fuel Consumption. Furthermore, there was a significant reduction observed in CO, HC, and smoke emissions by 47.9%, 70.3%, and 23.8%, respectively. The addition of these fuel additives increased combustion characteristics such as Heat Release Rate, Cumulative Heat Release Rate, peak pressure, and in-cylinder pressure, while concurrently decreasing the Ignition Delay period and Exhaust Gas Temperature. ? Akad�miai Kiad�, Budapest, Hungary 2024. corrected publication 2024.
Description
Keywords
Brakes , Diesel engines , Direct injection , Emission control , Ethers , Fuel additives , Graphene , Ignition , Nanoparticles , Smoke , Synthesis (chemical) , Thermal efficiency , CRDi engine , Diethyl ethers , Emission , Energy , Engine performance , Graphene oxide nanoparticle , Graphene oxides , Oxide nanoparticles , Pongamia pinnata , Pongamia pinnata biodiesel , Blending