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Energy Sources, Part A: Recovery, Utilization, and Environmental Effects Volume 45, 2023 - Issue 3
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Research Article

Straight vegetable oil fuel performance and exhaust emissions under turbocharged and naturally aspirated conditions

Albert K. Sunnua Mechanical Engineering Department, Kwame Nkrumah University of Science and Technology, Kumasi, GhanaView further author information
,
Godwin K. Ayetora Mechanical Engineering Department, Kwame Nkrumah University of Science and Technology, Kumasi, Ghana;b The Brew-Hammond Energy Centre, Kwame Nkrumah University of Science and Technology (KNUST), Kumasi, GhanaCorrespondence[email protected]
View further author information
&
James M. Gayea Mechanical Engineering Department, Kwame Nkrumah University of Science and Technology, Kumasi, GhanaView further author information
Pages 8408-8418 | Received 16 Jul 2019, Accepted 21 Sep 2019, Published online: 14 Oct 2019

References

  • Ajtai, T., M. Pintér, N. Utry, G. Kiss-Albert, G. Gulyás, P. Pusztai, R. Puskás, Á. Bereczky, G. Szabados, G. Szabó, et al. 2016. Characterisation of diesel particulate emission from engines using commercial diesel and biofuels. Atmospheric Environment 134:109–20. doi:10.1016/j.atmosenv.2016.03.046.
  • Ayetor, G. K.,Parbey, J., Osei,G. 2016. Durability studies of an indirect diesel engine run on raw palm kernel oil. International Journal of Technology and Management Research 1 (5):42–50.
  • Bayindir, H. 2010. The effects of cottonseed oil–kerosene blends on a diesel engine performance and exhaust emissions. Energy Sources, Part A: Recovery, Utilization, Environmental Effects 32 (10):901–08. doi:10.1080/15567030903059830.
  • Capuano, D., M. Costa, S. Di Fraia, N. Massarotti, and L. Vanoli. 2017. Direct use of waste vegetable oil in internal combustion engines. Renewable and Sustainable Energy Reviews 69:759–70. doi:10.1016/j.rser.2016.11.016.
  • Dueso, C., Muñoz, M., Moreno, F., Arroyo, J., Gil-Lalaguna, N., Bautista, A., Gonzalo, A. and Sánchez, J.L., 2018. Performance and emissions of a diesel engine using sunflower biodiesel with a renewable antioxidant additive from bio-oil. Fuel 234:276–285.
  • Farfan-Cabrera, L.I., Pérez-González, J. and Gallardo-Hernández, E.A., 2018. Deterioration of seals of automotive fuel systems upon exposure to straight Jatropha oil and diesel. Renewable energy 127:125–133.
  • Gharehghani, A., S. Asiaei, E. Khalife, B. Najafi, and M. Tabatabaei. 2019. Simultaneous reduction of CO and NOx emissions as well as fuel consumption by using water and nano particles in diesel–biodiesel blend. Journal of Cleaner Production 210:1164–70. doi:10.1016/j.jclepro.2018.10.338.
  • Halderman, J. D., and C. D. Mitchell. 2014. Automotive technology. New Jersey, NJ: Pearson.
  • Hazar, H., and H. Sevinc. 2019. Investigation of the effects of pre-heated linseed oil on performance and exhaust emission at a coated diesel engine. Renewable Energy 130:961–67. doi:10.1016/j.renene.2018.07.003.
  • Hellier, P., Ladommatos, N. and Yusaf, T., 2015. The influence of straight vegetable oil fatty acid composition on compression ignition combustion and emissions. Fuel 143:131–143.
  • Hoang, A.T., Le, V.V., Pham, V.V. and Tham, B.C., 2019. An investigation of deposit formation in the injector, spray characteristics, and performance of a diesel engine fueled with preheated vegetable oil and diesel fuel. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 1–13.
  • Hoang, A.T. and Pham, M.T., 2018. Influences of heating temperatures on physical properties, spray characteristics of bio-oils and fuel supply system of a conventional diesel engine. International Journal on Advanced Science, Engineering and Information Technology, 8 (5):2231–2240.
  • Kamarulzaman, M. K., A. Abdullah, and R. Mamat. 2019. Combustion, performances, and emissions characteristics of Hermetia illucens larvae oil in a direct injection compression ignition engine. Energy Sources, Part A: Recovery, Utilization, Environmental Effects 41 (12):1483–96. doi:10.1080/15567036.2018.1548524.
  • Koder, A., P. Schwanzer, F. Zacherl, H.-P. Rabl, W. Mayer, G. Gruber, and T. Dotzer. 2018. Combustion and emission characteristics of a 2.2 L common-rail diesel engine fueled with jatropha oil, soybean oil, and diesel fuel at various EGR-rates. Fuel 228:23–29. doi:10.1016/j.fuel.2018.04.147.
  • Kooter, I. M., M. A. T. M. van Vugt, A. D. Jedynska, P. C. Tromp, M. M. G. Houtzager, R. P. Verbeek, G. Kadijk, M. Mulderij, and C. A. M. Krul. 2011. Toxicological characterization of diesel engine emissions using biodiesel and a closed soot filter. Atmospheric Environment 45 (8):1574–80. doi:10.1016/j.atmosenv.2010.12.040.
  • Kumar, R. and Gakkhar, R.P., 2018. Influence of nozzle opening pressure on combustion, performance and emission analysis of waste cooking oil biodiesel fuelled diesel engine. International Journal of Renewable Energy Technology, 9 (1-2):244–259.
  • Crolla, D. and Mashadi, B., 2011. Vehicle powertrain systems. John Wiley & Sons.West Sussex, United Kingdom
  • Mat, S.C., Idroas, M.Y., Hamid, M.F. and Zainal, Z.A., 2018. Performance and emissions of straight vegetable oils and its blends as a fuel in diesel engine: A review. Renewable and Sustainable Energy Reviews, 82:808–823.
  • Praveena, V. and Martin, M.L.J., 2018. A review on various after treatment techniques to reduce NOx emissions in a CI engine. Journal of the Energy Institute 91 (5):704–720.
  • Raman, L. A., B. Deepanraj, S. Rajakumar, and V. Sivasubramanian. 2019. Experimental investigation on performance, combustion and emission analysis of a direct injection diesel engine fuelled with rapeseed oil biodiesel. Fuel 246:69–74. doi:10.1016/j.fuel.2019.02.106.
  • Salamanca, M., F. Mondragón, J. R. Agudelo, and A. Santamaría. 2012. Influence of palm oil biodiesel on the chemical and morphological characteristics of particulate matter emitted by a diesel engine. Atmospheric Environment 62:220–27. doi:10.1016/j.atmosenv.2012.08.031.
  • Serrano, J., Jiménez-Espadafor, F.J., Lora, A., Modesto-López, L., Gañán-Calvo, A. and López-Serrano, J., 2019. Experimental analysis of NOx reduction through water addition and comparison with exhaust gas recycling. Energy 168:737–752.
  • Shah, P.R., Gaitonde, U.N. and Ganesh, A., 2018. Influence of soy-lecithin as bio-additive with straight vegetable oil on CI engine characteristics. Renewable energy 115:685–696.
  • Shah, P.R. and Ganesh, A., 2018. Study the influence of pre-heating on atomization of straight vegetable oil through Ohnesorge number and Sauter mean diameter. Journal of the Energy Institute, 91 (6):828–834. doi:10.1111/cbdd.13148.
  • Sharma, A., Singh, Y., Gupta, S.K. and Singh, N.K., 2019. Application of response surface methodology to optimize diesel engine parameters fuelled with pongamia biodiesel/diesel blends. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 1–12.
  • Sharma, A., Singh, Y. and Kumar, N.A., 2019. Effect of fuel injection pressure and timing on Polanga (Calophyllum Inophyllum) biodiesel blends for engine performance and emissions analysis. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 1–12.
  • Shen, X., J. Shi, X. Cao, X. Zhang, W. Zhang, H. Wu, and Z. Yao. 2018. Real-world exhaust emissions and fuel consumption for diesel vehicles fueled by waste cooking oil biodiesel blends. Atmospheric Environment 191:249–57. doi:10.1016/j.atmosenv.2018.08.004.
  • Sonthalia, A. and Kumar, N., 2017. Hydroprocessed vegetable oil as a fuel for transportation sector: A review. Journal of the Energy Institute.
  • Wei, L., Cheng, R., Mao, H., Geng, P., Zhang, Y. and You, K., 2018. Combustion process and NOx emissions of a marine auxiliary diesel engine fuelled with waste cooking oil biodiesel blends. Energy 144:73–80.
  • Wu, F., J. Wang, W. Chen, and S. Shuai. 2009. A study on emission performance of a diesel engine fueled with five typical methyl ester biodiesels. Atmospheric Environment 43 (7):1481–85. doi:10.1016/j.atmosenv.2008.12.007.
  • Yerrennagoudaru, H., K. Manjunatha, and K. K. Kumar. 2018. Experimental study on performance and emissions of a turbocharged diesel engine fuelled with diesel and vegetable oils blended with ethanol. Materials Today: Proceedings5 (2):6288–96.
  • Yilmaz, N., Atmanli, A. and Vigil, F.M., 2018. Quaternary blends of diesel, biodiesel, higher alcohols and vegetable oil in a compression ignition engine. Fuel 212:462–469.
  • Zhu, R., C. S. Cheung, Z. Huang, and X. Wang. 2011. Regulated and unregulated emissions from a diesel engine fueled with diesel fuel blended with diethyl adipate. Atmospheric Environment 45 (13):2174–81. doi:10.1016/j.atmosenv.2011.01.062.

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