Abstract
In internal combustion engines, it is very important to improve engine performance parameters, reduce fuel consumption and unwanted exhaust emissions. The reduction of unwanted exhaust gases that harm both the environment and human health generally depends on the formation of a good combustion in the engine. In this study, it has been tried to increase the combustion efficiency and reduce the unwanted exhaust gases by applying a magnetic field to the fuel line of a four-stroke single cylinder gasoline engine. In order to create a magnetic field, neodymium magnets were placed on the fuel line at a magnetic field of 1850 gauss was created in the fuel hose. Magnetic field experiments were carried out separately at engine speeds of 2000, 2500 and 3000 rpm. In the experiments carried out, it was determined that HC, CO and CO2 among the undesired gases at 1850 Gauss and 3000 rpm decreased by 22.06%, 21.2% and 25.9% respectively, and the air-fuel mixture increased by 33.07%.
Project Number
FYL-2020-2116
References
- Ritchie H, Roser M, 2019. Outdoor Air Pollution. Our World in Data, https://ourworldindata.org (Erişim Tarihi: 10.12.2020).
- Govindasamy P, Dhandapani S. Experimental İnvestigation of Cyclic Variation of Combustion Parameters in Catalytically Activated and Magnetically Energized Two-Stroke SI Engine. Journal of Energy and Environment 2007; 6: 561–569.
- Raut MS, Uparwat SS, Nagarale C. Experimental Inspection by Using the Effect of Magnetic Field on the Performance of Diesel Engine. International Research Journal of Engineering and Technology 2017; 4: 2191–2194.
- Chaware K, Basavaraj M, Walke P. Effect of Fuel Magnetism by Varying İntensity on Performance and Emission df Single Cylinder Four Stroke Diesel Engine. International Research Journal of Engineering and Technology 2015; 2: 1121–1126.
- Mane DR, Sawant VS, India M. Comparative Study of Effect of Magnetic Field and Magnetically Treated Water on Growth of Plants and Crop Yield. International Journal for Scientific Research and Development 2015; 3: 300–302.
- Faris AS, Al-Naseri SK, Jamal N, Isse R, Abed M, Fouad Z, Kazım A, Reheem N, Chaloob A, Mohammad H, Jasim H, Sadıkın C, Salim A, Abas A. Effects of Magnetic Field on Fuel Consumption and Exhaust Emissions in Two-Stroke Engine. Energy Procedia 2012; 18: 327–338.
- Habbo ARA, Khalil R, Hammoodi HS. Effect of Magnetizing the Fuel on the Performance of an SI Engine. AL-Rafdain Engineering Journal 2011; 19: 84–90.
- Salih AM, Allawi EMK. Effect of Magnetic Field on the Fuel Consumption and Exhaust Emissions in Internal Combustion Engine. Natıonal Renewable Energıes Conference and Their Applıcatıons 2013; 122–135.
- Patel PM, Rathod GP, Patel TM. Effect of Magnetic Field on Performance and Emission of Single Cylinder Four Stroke Diesel Engine. IOSR Journal of Engineering 2014; 4: 28–34.
- Pramodkumar G, Naidu MK, Sandeep JV, Vasupalli R, Lade P. Effect of Magnetic Field on the Emissions of Single Cylinder Four Stroke Petrol Engine. Advances in Automobile Engineering 2017; 6: 2-4.
- Anonim, 2020. Sinterlenmiş NdFeB Mıknatısları Özellikleri, https://www.miknatis.net/neodimyum-mik-ndfeb (Erişim Tarihi: 12.12.2020).
- Sharaf J. Exhaust Emissions and İts Control Technology for an İnternal Combustion Engine. International Journal of Engineering Research and Applications 2013; 3: 947–960.
Abstract
İçten yanmalı motorlarda, motor performans parametrelerini iyileştirmek, yakıt tüketimini ve istenmeyen egzoz emisyonlarını azaltmak oldukça önemlidir. Hem çevreye hem de insan sağlığına zarar veren istenmeyen egzoz gaz emisyonlarının düşürülmesi genel olarak motorda iyi bir yanmanın oluşmasına bağlıdır. Bu çalışmada dört zamanlı tek silindirli, benzinli bir motorun yakıt hattına manyetik alan uygulanarak yanma verimliliği arttırılmaya ve istenmeyen egzoz gazları azaltılmaya çalışılmıştır. Manyetik alan oluşturmak için yakıt hattı üzerine neodimyum mıknatıslar yerleştirilerek yakıt hortumu içerisinde 1850 Gauss gücünde bir manyetik alan oluşturulması sağlanmıştır. 2000, 2500 ve 3000 dev/dak motor devirlerinde ayrı ayrı manyetik alan deneyleri gerçekleştirilmiştir. Yapılan deneylerde 1850 Gauss ve 3000 dev/dak’da istenmeyen gazlardan HC, CO ve CO2’nin sırasıyla %22.06, %21.2 ve %25.9 oranında azaldığı ve hava-yakıt karışımının da %33.07 oranında arttığı tespit edilmiştir..
Supporting Institution
İnönü Üniversitesi Bilimsel Araştırma Projeleri Koordinasyon Birimi
Project Number
FYL-2020-2116
Thanks
İnönü Üniversitesi Bilimsel Araştırma Projeleri Koordinasyon Birimine teşekkür ederiz.
References
- Ritchie H, Roser M, 2019. Outdoor Air Pollution. Our World in Data, https://ourworldindata.org (Erişim Tarihi: 10.12.2020).
- Govindasamy P, Dhandapani S. Experimental İnvestigation of Cyclic Variation of Combustion Parameters in Catalytically Activated and Magnetically Energized Two-Stroke SI Engine. Journal of Energy and Environment 2007; 6: 561–569.
- Raut MS, Uparwat SS, Nagarale C. Experimental Inspection by Using the Effect of Magnetic Field on the Performance of Diesel Engine. International Research Journal of Engineering and Technology 2017; 4: 2191–2194.
- Chaware K, Basavaraj M, Walke P. Effect of Fuel Magnetism by Varying İntensity on Performance and Emission df Single Cylinder Four Stroke Diesel Engine. International Research Journal of Engineering and Technology 2015; 2: 1121–1126.
- Mane DR, Sawant VS, India M. Comparative Study of Effect of Magnetic Field and Magnetically Treated Water on Growth of Plants and Crop Yield. International Journal for Scientific Research and Development 2015; 3: 300–302.
- Faris AS, Al-Naseri SK, Jamal N, Isse R, Abed M, Fouad Z, Kazım A, Reheem N, Chaloob A, Mohammad H, Jasim H, Sadıkın C, Salim A, Abas A. Effects of Magnetic Field on Fuel Consumption and Exhaust Emissions in Two-Stroke Engine. Energy Procedia 2012; 18: 327–338.
- Habbo ARA, Khalil R, Hammoodi HS. Effect of Magnetizing the Fuel on the Performance of an SI Engine. AL-Rafdain Engineering Journal 2011; 19: 84–90.
- Salih AM, Allawi EMK. Effect of Magnetic Field on the Fuel Consumption and Exhaust Emissions in Internal Combustion Engine. Natıonal Renewable Energıes Conference and Their Applıcatıons 2013; 122–135.
- Patel PM, Rathod GP, Patel TM. Effect of Magnetic Field on Performance and Emission of Single Cylinder Four Stroke Diesel Engine. IOSR Journal of Engineering 2014; 4: 28–34.
- Pramodkumar G, Naidu MK, Sandeep JV, Vasupalli R, Lade P. Effect of Magnetic Field on the Emissions of Single Cylinder Four Stroke Petrol Engine. Advances in Automobile Engineering 2017; 6: 2-4.
- Anonim, 2020. Sinterlenmiş NdFeB Mıknatısları Özellikleri, https://www.miknatis.net/neodimyum-mik-ndfeb (Erişim Tarihi: 12.12.2020).
- Sharaf J. Exhaust Emissions and İts Control Technology for an İnternal Combustion Engine. International Journal of Engineering Research and Applications 2013; 3: 947–960.
Details
| Primary Language | Turkish |
|---|---|
| Subjects | Engineering |
| Journal Section | Makaleler |
| Authors | |
| Project Number | FYL-2020-2116 |
| Publication Date | June 30, 2021 |
| Submission Date | March 12, 2021 |
| Published in Issue | Year 2021 Volume: 8 Issue: 14 |
