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The rapid depletion of petroleum reserves and stringent emission legislation due to global warming has compelled us to pursue alternative fuels. Biodiesel is an alternative diesel fuel that can be produced from renewable feedstock such as edible and non-edible vegetable oils, wasted frying oils and animal fats. Biodiesel is an oxygenated, sulphur free, non-toxic, biogradable and renewable fuel. In the present study, a military 585 kW compression ignition diesel injection (CIDI) engine was fuelled with diesel, Karanja oil methyl ester (KOME) and Jatropha oil methyl ester (JOME) biodiesel respectively. These were subjected to 100 hours long term endurance tests. Lubricating oil samples drawn from engine after a fixed interval (20 hours) were subjected to elemental analysis. Metal debris concentration analysis was done by atomic absorption spectroscopy. Lubricating oil samples were also subjected to ferrography test.

Rapid depletion of petroleum crude oil resources, stringent regulations on gaseous emission, and global warming due to exhaust pollution have compelled us to use the alternative of diesel fuel. Biodiesel is a green alternative fuel that can be produced from edible as well as non-edible vegetable oils, waste cooking frying oils, and animal fats. Biodiesel is an oxygenated, bio-gradable, renewable, non-sulfur, and non-toxic fuel. JP-8 is an aviation turbine fuel and is readily available. Gasoline fuel is also available in surplus. Under the multi-fuel strategy program, optimization of fuel availability is required for both, military combat as well as highway commercial heavy-duty vehicles. It was essential to assess the performance, NOx reduction, nanoparticle emission, and engine wear by using Gasoline, JP-8, and esterified Karanja oil biodiesel fuels on a military heavy-duty diesel engine. EGR is a useful technique to reduce NOx emissions.

Global warming, stringent pollution legislations and depletion of oil reserves have opened up an opportunity to research on bio fuels. Biodiesel can be produced from edible and non-edible vegetable oils, waste bio mass and animal fats. Biodiesel is a renewable, bio gradable, sulphur free, non-toxic, oxygenated and green alternative fuel. Karanja and Jatropha oils are non- edible vegetable oils. Karanja and Jatropha oil methyl ester biodiesels are prepared by the transesterification process, using methanol. Jatropha oil methyl ester (JOME) and Karanja oil methyl ester (KOME) biodiesels have comparable performance with low gaseous emission characteristics, except a higher NOx emission, in comparison to diesel fuel. Recent emission legislations also restrict nano particle emission in addition to particulate matter, due to their adverse impact on health.

The depleting fossil fuel resources and stringent emission legislation due to global warming have driven the engine technology towards the search for alternative fuels for diesel engines. In the present study, a military 780 hp CIDI engine was fuelled with diesel, jatropha oil methyl ester (JOME) and karanja oil methyl ester (KOME) biodiesel respectively. The performances of fuels were evaluated in terms of power out put, specific fuel consumption and heat release rates. The emission of carbon monoxide (CO), unburnt hydrocarbon (UHC), and oxides of nitrogen NOx with the three fuels were also compared. Both karanja and jatropha oil, after transesterification exhibit the properties within acceptable limits of ASTM standard. Performance of both KOME and JOME were slightly lower than diesel. Emissions of CO, and UHC were found lower with both KOME and JOME as compared to diesel fuel, but with slightly higher NOx emission.

Stringent emission legislations, brought in due to global warming and rapid depletion of petroleum reserves, have given us the opportunity to find bio fuels. Biodiesel is an alternative to diesel fuel that can be produced from feedstock such as edible and non-edible vegetable oils, bio-mass, wasted frying oils and animal fats. Biodiesel is green, renewable, sulphur free, non-toxic, and oxygenated biogradable fuel. Jatropha and Karanja oils are non- edible vegetable oils. Jatropha and Karanja biodiesel are prepared using methanol by the process of transesterification. JOME and KOME biodiesel were found to be highly compatible alternative fuels. JOME and KOME have comparable performance with low emission characteristics, except for NOx emission, in comparison to diesel fuel. Most recent emission legislations also restrict the total number of nano particles emitted in addition to particulate matter, due to the adverse health impact.

Investigating the impact of Karanja oil biodiesel and JP-8 fuel on diesel engine performance, emission and wear are very important for military track and wheeled vehicles due to their great potential as alternative fuels. In the present study, a military 585 kW CIDI engine was fuelled and tested with diesel, Karanja oil biodiesel and JP-8 respectively. The performances of fuels were evaluated in terms of brake horse power, specific fuel consumption, brake specific energy consumption, brake mean effective pressure, thermal efficiency and heat release rates. The emission of carbon monoxide (CO), unburnt hydrocarbon (UHC), and oxides of nitrogen NOx with the three fuels were also compared. Both Karanja oil, after transesterification and JP-8 exhibit the properties (density, viscosity and calorific value) within acceptable limits of ASTM standard. Performance of both JP-8 and pure Karanja oil biodiesel were slightly lower than diesel.

Rapidly depleting oil reserves and strict pollution regulations have made it necessary to find a substitute for diesel fuel. In the context of the multi-fuel strategy program, gasoline has improved the fuel availability for both combat and commercial highway vehicles with diesel engines. This study examines the effect of gasoline fuel on the engine wear, performance, and emission of a military, heavy-duty, supercharged diesel engine. In a CIDI diesel engine, the use of Gasoline has been considered to be significantly sustainable with engine performance and reduced pollutants. For this research a military heavy-duty, 38.8 L, 585kW, diesel engine, the EGR technique was used for gasoline and diesel fuels. Furthermore, the impact of nanoparticles on NOx emissions was also explored. NOx emission reduces in diesel engines by using the EGR technique. Two test fuels were tested in their trials for a total of 100 hours of engine endurance assessment.

Biodiesel fuels are an alternative to diesel fuel. Biodiesel is an oxygenated, sulphur free, non-toxic, biogradable and renewable fuel. It is derived from vegetable oils. Since straight vegetable oils have quite high viscosity compared to mineral diesel, they have to be modified to bring their combustion-related properties and viscosity closer to mineral diesel. This is done by modifying their molecular structure through a transesterification process. In the present study, a military heavy duty 38.8 liter, 585 kW supercharged, compression ignition diesel injection (CIDI) engine was fuelled with diesel, Karanja oil methyl ester (KOME) biodiesel, and KOME biodiesel with cerium oxide fuel additive, respectively. These were subjected to 100 hours long term endurance tests. Lubricating oil samples, drawn from the engine fuelled with these fuels after a fixed interval of 20 hours, were subjected to elemental analysis.

Global warming due to increasing pollution and rapid depletion in petroleum reserves has given us opportunity to find bio fuels. Biodiesel is an alternative diesel fuel that can be produced from renewable feedstock such as edible and non-edible vegetable oils, waste frying oils, and animal fats. Biodiesel is an oxygenated, sulphur free, non-toxic, biogradable, and renewable fuel. The diesel performance and emission characteristics depend upon the fuel properties such as cetane number, density, low caloric value, and kinematic viscosity. In this experiment, 12 cylinders, 780hp CIDI military diesel engine performance and emission characteristics from non-edible karanja oil methyl ester (KOME) biodiesel and diesel fuel were compared by applying EGR with supercharging. The test results showed that the engine performance of karanja oil methyl ester biodiesel fuel was similar to that of diesel fuel.

Global warming with stringent emission legislation along with the depletion of fossil fuel has given us an opportunity to find biodiesel as alternative to diesel fuel. Biodiesel has been widely accepted as comparable fuel to diesel in diesel engine. This is due to its renewable property, better lubricity, along with lesser gaseous emission as compared to diesel fuel. However, there is a major disadvantage in the use of biodiesel as it increases NOx emission. Fuel additive becomes one of the essential tools to overcome the drawback of biodiesel required to meet the international standard of performance and emission. In this study, the performance, combustion, and gaseous emission of CO, CO2, HC, NOx and PM including particle size number distribution characteristics, were compared for diesel, Karanja oil biodiesel, and Karanja oil biodiesel with Cerium Oxide Nano particles fuel additive, in a 12 cylinder, 585 kW, CIDI military diesel engine.

Rapid depletion of petroleum reserves, stringent emission legislations and global warming has given us an opportunity to find biodiesel as an alternative to diesel fuel. Biodiesel is a biogradable, renewable, sulphur free, non-toxic, and oxygenated green fuel. Recent emission legislations have also restricted the nano particles emission in addition to particulate matter, due to their adverse impact on health. Karanja and Jatropha oils are non-edible vegetable oils. Karanja and Jatropha oil methyl ester biodiesel are prepared by the process of transesterification. Biodiesel emits lesser gaseous emission as compared to diesel fuel. However, the only major concern in the use of biodiesel is that it increases NOx emission. Nano particle fuel additive is one of the essential techniques to overcome the NOx emission drawback of biodiesel.