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THE INFLUENCE OF ADDITIVE TO THE FUEL CONSUMPTION

Piotr Kardasz

First published: 2021-12-20https://doi.org/10.5593/sgem2021v/6.2/s26.19View metrics

Abstract

The reduction of fuel consumption in the engine was experimentally investigated in cogeneration system with the participation of 1:4000 vol. CeO2 concentrate (Bluediesel): diesel fuel. CeO2 concentrate purifies combustion chamber and after burns hydrocarbons which in turn affects lowering the fuel consumption. This work was carried out with the engine load at the level of 0-4000W and it shows that in the presence of the Bluediesel concentrate, fuel consumption is 5-7 wt. % lower than in case of diesel oil consumption without the concentrate. The applied fuel additives may not only affect the entire retort process, but also the ecological effect that translates into greenhouse gas emissions. The topic of adding performance additives has been raised many times, while adding additives with Ce compounds is a new direction. It has been noticed that the use of fuel additives can positively affect more efficient fuel consumption. The effect is more visible with older engines and in the initial stage of use when the exhaust system is cleaned.

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Publication details

Title
THE INFLUENCE OF ADDITIVE TO THE FUEL CONSUMPTION
Authors
Piotr Kardasz
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 21st SGEM International Multidisciplinary Scientific GeoConference Proceedings 2021, Nano, Bio, Green and Space: Technologies for Sustainable Future
Publisher
STEF92 Technology
Year
2021
Pages
131-138
SWS Citekey
Kardasz202126181188
ISSN
1314-2704
ISBN
978-619-7603-36-1
Language
en
Publication type
Conference Paper
Keywords
References14
  1. P. Kardasz, “The potential use of waste oil”, Journal of Ecological Engineering 14(3), pp. 77–82 (2013).

  2. P. Haller, P. Kardasz, L. Sitnik, K. Trzmiel, “Emission of pollutants and energy consumption in life cycle of diesel oil”, Journal of Ecological Engineering 14(4), pp. 50–53 (2013).

  3. A. Marek, P. Kardasz, M. Karpinski, V Pohrebennyk, “Assessment of the logistic system of fuel life cycle using the LCA method”, Agricultural Engineering 20(3), pp. 125–134 (2016).

  4. M. Andrych-Zalewska, Z. Ch?opek, J. Merkisz, J. Pielecha, “Investigations of exhaust emissions from a combustion engine under simulated actual operating conditions in real driving emissions test”, Energies 14(4), 935 (2021).

  5. P. Haller, A. Jankowski, E. Jaworska, P. Kardasz, K. Markowska, R. Wr?bel, “Using LCA method to describe logistic system of fuel”, Journal of KONES 22(3), pp. 293–299 (2015).

  6. P. Kardasz, “Waste substances for the electricity production. Cheap power off the power industry”, Engineering Mechanics and Transport (EMT-2013), 21–23 November, Lviv, Ukraine, pp. 86–89 (2013).

  7. E. Kardasz, L. Onyshchuk, P. Kardasz, V. Pohrebennyk, О. Mitryasova, “Life-cycle cost analysis of rapeseed oil- and algae oil-based biofuels”, in Proc. of 18th International Multidisciplinary Scientific GeoConference (SGEM 2018) 18(4.1), 02–08 July, Sofia, Bulgaria, pp. 433–440 (2018).

  8. P. Haller, P. Kardasz, E. Kardasz, V. Pohrebennyk, О. Mitryasova, “Active ceramic coatings and their applications in VW 1,9 TDI engine”, in Proc. of 18th International Multidisciplinary Scientific GeoConference (SGEM 2018) 18(4.1), 02–08 July, Sofia, Bulgaria, pp. 97–102 (2018).

  9. J. Wysocka, J. Doskocz, P. Haller, P. Kardasz, E. Jaworska, “The use of alcohols and their compounds as biofuel and gasoline blends”, J. Civ. Environ. Eng. ISSN:2165-784X (2015).

  10. H. Jung, D. B. Kittelson, M. R. Zachariah, “The influence of a cerium additive on ultrafine diesel particle emissions and kinetics of oxidation”, Combustion and Flame 142(3), pp. 276–288 (2005).

  11. R. Wrobel, G. Sierzputowski, Z. Sroka, R. Dimitrov, “Comparison of diesel engine vibroacoustic properties powered by bio and standard fuel”, Energies 14(5), 1478 (2021).

  12. H. S. Saraee, H. Taghavifar, S. Jafarmadar, “Experimental and numerical consideration of the effect of CeO2 nanoparticles on diesel engine performance and exhaust emission with the aid of artificial neural network”, Applied Thermal Engineering 113, pp. 663–672 (2017).

  13. A. Prabu, R. B. Anand, “Emission control strategy by adding alumina and cerium oxide nano particle in biodiesel”, Journal of the Energy Institute 89, pp. 366–372 (2016).

  14. M. Annamalai et al., “An assessment on performance, combustion and emission behavior of a diesel engine powered by ceria nanoparticle blended emulsified biofuel”, Energy Conversion and Management 123, pp. 372–380 (2016).

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