Determining the Influence of a Magnetic Field on the Vibration and Fuel Consumption of a Heavy Diesel Engine

Most of the fuels used in internal combustion engines are liquid fuels. The magnetic behavior of fuel leads to a change in the interaction of hydrocarbon and oxygen molecules. This study aimed to evaluate the fuel consumption and engine vibration (time domain) of the Perkins A63544 diesel engine usi...

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Veröffentlicht in:	Sustainability 2023-03, Vol.15 (5), p.4088
Hauptverfasser:	Darvishi, Yousef, Hassan-Beygi, Seyed Reza, Massah, Jafar, Gancarz, Marek, Bieszczad, Arkadiusz, Karami, Hamed
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Sprache:	eng
Schlagworte:	Acceleration Accelerometers Agricultural equipment Analysis Combustion Diesel Diesel engines Diesel fuels Diesel motor Energy consumption Energy use Engine components Engineering research Engines Evaluation Experiments Farm tractors Fuel consumption Gasoline Internal combustion engine industry Internal combustion engines Laboratories Liquid fuels Magnetic fields Magnetic properties Mechanical properties Sustainability Tractor engines Tractors Variance analysis Vibration Vibration measurement Viscosity
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creator	Darvishi, Yousef Hassan-Beygi, Seyed Reza Massah, Jafar Gancarz, Marek Bieszczad, Arkadiusz Karami, Hamed
description	Most of the fuels used in internal combustion engines are liquid fuels. The magnetic behavior of fuel leads to a change in the interaction of hydrocarbon and oxygen molecules. This study aimed to evaluate the fuel consumption and engine vibration (time domain) of the Perkins A63544 diesel engine using magnetized fuel. The vibration of an internal combustion engine can cause failure in engine components and discomfort and injury to users. Engine vibration behavior changes due to changes in fuel types and engine combustion. Therefore, in this study, the vibration behavior of the tractor engine (Perkins model, four-stroke, direct injection diesel) was evaluated in stationary mode at different engine speeds due to changes in fuel types. Three accelerometers (CTC AC102 model) were used to measure the vibration acceleration. The fuels used included diesel as a normal control and fuels that had been subjected to magnetic field intensities of 1000, 2000, 3000, and 4000 gauss. The longitudinal, vertical, and lateral vibration signals with 5 levels of engine speed were measured. The results illustrated that the vibration root mean square (RMS) values were essentially (p < 0.01) affected by the engine speed, fuel type, and their interactions. It was found that for the 4000-gauss magnetized fuel, the average vibration acceleration using the five velocity settings reduced by 15%, 15.30%, 12.40%, 12.35%, and 15.38% compared to the respective control fuels. The results showed that engine fuel consumption and specific fuel consumption decreased by 2.3% using the 4000-gauss magnetized fuel compared with the normal control fuel.
doi_str_mv	10.3390/su15054088
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The magnetic behavior of fuel leads to a change in the interaction of hydrocarbon and oxygen molecules. This study aimed to evaluate the fuel consumption and engine vibration (time domain) of the Perkins A63544 diesel engine using magnetized fuel. The vibration of an internal combustion engine can cause failure in engine components and discomfort and injury to users. Engine vibration behavior changes due to changes in fuel types and engine combustion. Therefore, in this study, the vibration behavior of the tractor engine (Perkins model, four-stroke, direct injection diesel) was evaluated in stationary mode at different engine speeds due to changes in fuel types. Three accelerometers (CTC AC102 model) were used to measure the vibration acceleration. The fuels used included diesel as a normal control and fuels that had been subjected to magnetic field intensities of 1000, 2000, 3000, and 4000 gauss. The longitudinal, vertical, and lateral vibration signals with 5 levels of engine speed were measured. The results illustrated that the vibration root mean square (RMS) values were essentially (p < 0.01) affected by the engine speed, fuel type, and their interactions. It was found that for the 4000-gauss magnetized fuel, the average vibration acceleration using the five velocity settings reduced by 15%, 15.30%, 12.40%, 12.35%, and 15.38% compared to the respective control fuels. 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The longitudinal, vertical, and lateral vibration signals with 5 levels of engine speed were measured. The results illustrated that the vibration root mean square (RMS) values were essentially (p < 0.01) affected by the engine speed, fuel type, and their interactions. It was found that for the 4000-gauss magnetized fuel, the average vibration acceleration using the five velocity settings reduced by 15%, 15.30%, 12.40%, 12.35%, and 15.38% compared to the respective control fuels. The results showed that engine fuel consumption and specific fuel consumption decreased by 2.3% using the 4000-gauss magnetized fuel compared with the normal control fuel.</abstract><cop>Basel</cop><pub>MDPI AG</pub><doi>10.3390/su15054088</doi><orcidid>https://orcid.org/0000-0003-4719-2954</orcidid><orcidid>https://orcid.org/0000-0002-2822-7157</orcidid><orcidid>https://orcid.org/0000-0002-0654-6149</orcidid><orcidid>https://orcid.org/0000-0001-9877-0043</orcidid><oa>free_for_read</oa></addata></record>
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source	Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; MDPI - Multidisciplinary Digital Publishing Institute
subjects	Acceleration Accelerometers Agricultural equipment Analysis Combustion Diesel Diesel engines Diesel fuels Diesel motor Energy consumption Energy use Engine components Engineering research Engines Evaluation Experiments Farm tractors Fuel consumption Gasoline Internal combustion engine industry Internal combustion engines Laboratories Liquid fuels Magnetic fields Magnetic properties Mechanical properties Sustainability Tractor engines Tractors Variance analysis Vibration Vibration measurement Viscosity
title	Determining the Influence of a Magnetic Field on the Vibration and Fuel Consumption of a Heavy Diesel Engine
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