The effect of nanoparticle as additive in Jatropha biodiesel is experimentally investigated in a single cylinder DI diesel engine with the aim of diluting the level of pollutants in the exhaust and for the improvement of engine performance owing to its potential advantage of high surface area to volume ratio, acting as a catalyst for the better combustion. Alumina and Cerium oxide nanoparticles are blended separately with Jat-ropha biodiesel at 30 parts per million and the engine perfor-mance, combustion and emission characteristics are compared with neat diesel and neat biodiesel as base fuels. For alumina blended test fuel, percentage reduction of NO emission by 9 %, Smoke opacity by 17 %, unburned hydrocarbon by 33 % and carbon monoxide ...
With the burning of 1 L of diesel fuel, approximately 3 kg of greenhouse gas is released into the at...
With the burning of 1 L of diesel fuel, approximately 3 kg of greenhouse gas is released into the at...
Agbulut, Umit/0000-0002-6635-6494WOS: 000520029100040With the burning of 1 L of diesel fuel, approxi...
The effect of nanoparticle as additive in Jatropha biodiesel is experimentally investigated in a sin...
This experimental work investigates the performance, combustion and emission characteristics of a si...
The objective of this research work is to evaluate the performance, combustion, and exhaust emission...
The objective of this research work is to evaluate the performance, combustion, and exhaust emission...
In this study, the combined effect of alumina nanoparticles concentration in diesel–biodiesel blende...
The present review investigates the effects of different nanoparticles and antioxidants blended with...
This study aims to investigate a CI diesel engine characteristic of diesel-biodiesel blend with oxyg...
How to improve the combustion efficiency and reduce harmful emissions has been a hot research topic ...
This study aims to investigate a CI diesel engine characteristic of diesel-biodiesel blend with oxyg...
Evaluation of combustion characteristic, engine performances and exhaust emissions of nanoparticles ...
An investigational research is carried out to found the performance and emission characteristics of ...
In recent years renewable and cleaner fuel for diesel engines are compulsory due to depletion of fos...
With the burning of 1 L of diesel fuel, approximately 3 kg of greenhouse gas is released into the at...
With the burning of 1 L of diesel fuel, approximately 3 kg of greenhouse gas is released into the at...
Agbulut, Umit/0000-0002-6635-6494WOS: 000520029100040With the burning of 1 L of diesel fuel, approxi...
The effect of nanoparticle as additive in Jatropha biodiesel is experimentally investigated in a sin...
This experimental work investigates the performance, combustion and emission characteristics of a si...
The objective of this research work is to evaluate the performance, combustion, and exhaust emission...
The objective of this research work is to evaluate the performance, combustion, and exhaust emission...
In this study, the combined effect of alumina nanoparticles concentration in diesel–biodiesel blende...
The present review investigates the effects of different nanoparticles and antioxidants blended with...
This study aims to investigate a CI diesel engine characteristic of diesel-biodiesel blend with oxyg...
How to improve the combustion efficiency and reduce harmful emissions has been a hot research topic ...
This study aims to investigate a CI diesel engine characteristic of diesel-biodiesel blend with oxyg...
Evaluation of combustion characteristic, engine performances and exhaust emissions of nanoparticles ...
An investigational research is carried out to found the performance and emission characteristics of ...
In recent years renewable and cleaner fuel for diesel engines are compulsory due to depletion of fos...
With the burning of 1 L of diesel fuel, approximately 3 kg of greenhouse gas is released into the at...
With the burning of 1 L of diesel fuel, approximately 3 kg of greenhouse gas is released into the at...
Agbulut, Umit/0000-0002-6635-6494WOS: 000520029100040With the burning of 1 L of diesel fuel, approxi...