Effect of Sisal Nanoparticles on Single Cylinder Spark Ignition Engine Combustion

Turbulence is an important parameter to be considered for effective combustion inside a cylinder. Heat transfer inside the cylinder affects the combustion process. Insufficient turbulence leads to incomplete combustion, resulting in pollution. Effective flame propagation leads to higher combustion r...

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Veröffentlicht in:	International journal of recent technology and engineering 2020-03, Vol.8 (6), p.1027-1032
Hauptverfasser:	Manohar, Dr. G. Arun, Dontikurti, Raghuveer, Priya, G. Indu, Rao, Dr. D. Nageswara
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creator	Manohar, Dr. G. Arun Dontikurti, Raghuveer Priya, G. Indu Rao, Dr. D. Nageswara
description	Turbulence is an important parameter to be considered for effective combustion inside a cylinder. Heat transfer inside the cylinder affects the combustion process. Insufficient turbulence leads to incomplete combustion, resulting in pollution. Effective flame propagation leads to higher combustion rates in SI engines which in turn requires enough turbulence. Effective combustion efficiency can be achieved through higher flame propagation velocities. In the present work an attempt has been made to enhance the turbulence inside the cylinder of a single cylinder spark ignition engine by injecting solid nanoparticles into the air fuel mixture.
doi_str_mv	10.35940/ijrte.E5646.038620
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title	Effect of Sisal Nanoparticles on Single Cylinder Spark Ignition Engine Combustion
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