Open AccessSet-up of the Experiment and Improve the Performance and Emissions of Diesel Fuel with Fusel Oil Additive from Waste Products
Author(s) -
R. Alenezi,
Omar I. Awad,
Rizalman Mamat,
Gholamhassan Najafi
Publication year - 2022
Publication title -
maǧallaẗ al-abḥāṯ al-handasiyyaẗ
Language(s) - English
Resource type - Journals
eISSN - 2307-1885
pISSN - 2307-1877
DOI - 10.36909/jer.16829
Subject(s) - fusel alcohol , nox , diesel fuel , biodiesel , environmental science , diesel engine , ignition system , waste management , engine power , thrust specific fuel consumption , automotive engineering , pulp and paper industry , engineering , combustion , chemistry , power (physics) , alcohol , aerospace engineering , biochemistry , physics , organic chemistry , quantum mechanics , catalysis
Response surface methodology has been widely implemented to improve the pollutant emission characteristics and performance of a compression ignition engine. The fusel oil-biodiesel blend and pure diesel under varied engine loads and speeds with the use of Models of RSM were found to be statistically significant. This research study has aimed to statistically investigate how a fusel oil-diesel blend impacts compression ignition engine performance and the exhaust pollutants by comparing it to pure diesel fuel. The optimum parameter for reducing ISFC, NOx and CO2 emissions while boosting power was chosen. The blended fuel (F20) showed insignificant effects on the IP thereby 20% of fusel oil with diesel may be an acceptable ratio using CI engines in terms of power as well as the lowest NOx emissions with F20. Meanwhile, the highest values of ISFC and CO2 emissions were with F20. When comparing diesel to F20, the optimal load was 29.4 % and the engine speed was 2399 rpm. The predicted values for power, ISFC, NOx and CO2 emissions were 4.06 KW, 220.07 g/KWh, 55.56 ppm and 1.93% respectively.