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Item Influence of Magneto-combustion on regulated emissions of an automotive engine under variable speed operation(MechAero Found. for Techn. Res. and Educ. Excellence office@mechaero.org, 2020) Oommen, L.P.; Kumar, G.N.The present study investigates the influence of magneto-combustion on the macro pollutants emitted from a multi point fuel injection (MPFI) automotive engine. The regulated emissions of an auto engine include carbon monoxide, un-burnt hydrocarbon (UBHC)and oxides of nitrogen (NOx) which are the by-products of internal combustion of the hydrocarbon fuel used. Depending upon the physiochemical characteristics of pollutants and their concentrations, these pollutants result in numerous physical ailments and mortality. Magneto-combustion is an under investigated technology which effectively reduces the emission of toxic vehicular exhaust. The exposure to an external magnetic field realigns the hydrocarbon structure and alters its combustion properties. The tests conducted on a Maruthi Zen MPFI engine under two different patterns of magnetisation resulted in a maximum reduction of carbon monoxide by 23.97%, UBHC by 13.1% and NOx by 5.23%, thereby reduced the cumulative negative impact on the environment. © 2020. MechAero Foundation for Technical Research & Education Excellence.Item Impact of 1-Hexanol/diesel blends on combustion, performance and emission characteristics of CRDI CI mini truck engine under the influence of EGR(Elsevier Ltd, 2020) Santhosh, K.; Kumar, G.N.Biofuels are the most promising sustainable and renewable alternative to diesel fuel. In the present renewable energy world, alcohols are gaining prime importance due to their nature of production and fuel properties. The present work aims to investigate the impact of 1-Hexanol and exhaust gas recirculation (10% and 20%) on engine characteristics of the common rail direct injection compression ignition engine. The experiment is carried out on a bench engine. The fraction of 1-Hexanol is varied from 10% to 40% in a step of 10% by volume. The results demonstrate that the use of 1-Hexanol/diesel blends lowers the cylinder pressure and mean gas temperature, which is 4.25% and 1.88% lower at 60% load for 40% 1-Hexanol compared to neat diesel fuel operation. The combustion duration is increased by 2.66?CA for 40% 1-Hexanol at 60% load compared to neat diesel fuel. However, an improvement in net heat release rate is noted which is 13.95% higher at 60% load for 40% 1-Hexanol, this increment is due to prolonged ignition delay. With the use of 1-Hexanol in the engine, there is a drastic reduction in nitrogen oxide emission is observed, this is the greatest impact of 1-Hexanol. However, a slight increment in the hydrocarbon and carbon monoxide emission is also noted due to poor fuel properties like lower cetane number, higher viscosity and higher latent heat of evaporation of 1-Hexanol. Compared to all other blends in the test 10% 1-Hexanol shows comparable results with pure diesel fuel, which is only 2.37% lower in brake thermal efficiency, 3.6% higher in brake specific fuel consumption, 17.55% lower in nitrogen oxide emission, 18.18% higher in hydrocarbon and 33.33% higher in carbon monoxide emission is noted. The exhaust gas recirculation helps in reducing the NOx emission, 40% 1-Hexanol is less sensitive to exhaust gas recirculation. Up to 40% of 1-Hexanol can be used in the CI engine without any modification. It is concluded that 1-Hexanol is a sustainable renewable biofuel due to the reason that even though the use of 1-Hexanol lowers the performance which helps in reducing the NOx emission greatly; the performance can be improved by modifying the engine parameters. © 2020 Elsevier Ltd