PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

External speed characteristic for the Perkins 1104D-44TA engine fuelled by sunflower oil methyl esters

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The publication presents test results for a Perkins 1104D - 44TA engine powered by SME sunflower oil fatty acids methyl esters. The SME biofuel was manufactured in-house using a GW-200 reactor at MCOŹE "BioEnergia". The test was carried out at an engine test stand at Kielce University of Technology's Heat Engine Laboratory. During the test the engine operated according to an external speed characteristic. The tests aimed to determine the impact of using an SME type biofuel to power the engine on the engine's primary performance indicator values. A slight decrease to the brake horsepower and torque of the tested engine powered by sunflower oil esters as compared to diesel was recorded. Fuel consumption of the engine powered by plant origin fuel also increased. No operating problems were experienced associated with powering the engine using sunflower oil esters during the tests.
Twórcy
  • Kielce University of Technology Department of Automotive Vehicles and Transportation, Poland
autor
  • Kielce University of Technology Department of Automotive Vehicles and Transportation, Poland
autor
  • Faculty of Production Engineering and Power Technologies. University of Agriculture in Krakow, Poland
autor
  • Hodowla Roślin Strzelce Sp. z o.o. Grupa IHAR
autor
  • Cracow University of Economics. Faculty of Commodity Science
Bibliografia
  • 1. Ambrozik A., Kurczyński D., Łagowski P., Warianek M. 2016. The toxicity of combustion gas from the Fiat 1.3 Multijet engine operating following the load characteristics and fed with rape oil esters. Proceedings of The Institute of Vehicles 1(105)/2016, s. 23-35.
  • 2. Ambrozik A., Ambrozik T., Kurczyński D., Łagowski P. 2015. ZS engine running indicator with Common Rail powered by FAME ester. Logistyka 5/2015, s. 23÷32. ISSN 1231-5478. (in Poland).
  • 3. Demirbas A. 2009. Characterization of Biodiesel Fuels. Energy Sources, Part A, 31:889÷896, 2009.
  • 4. How H.G., Masjuki H.H., Kalam M.A., Teoh Y.H. 2014. An investigation of the engine performance, emissions and combustion characteristics of coconut biodiesel in a high-pressure common-rail diesel engine. Energy 69/2014, s. 749-759.
  • 5. Jackowska, I., Krasucki, W., Piekarski, W., Tys, J., Zając, G. 2012. Rape from the field to the tank, State Agricultural and Forest Publishing House, Warszawa 2004. (in Poland).
  • 6. Klimiuk E., Pawłowska M., Pokój T. 2012. Biofuels Technologies for sustainable development. Wydawnictwo Naukowe PWN, Warszawa 2012. (in Poland).
  • 7. Murugesan A., Umarani C., Subramanian R., Nedunchezhian N. 2009. Bio-diesel as an alternative fuel for diesel engines. Renewable and Sustainable Energy Reviews 13/2009, P. 653÷662.
  • 8. Orliński P. 2013. The effect of diesel fuel mixture and camelina oil ester on selected parameters of combustion process. Journal of Kones 2013, Vol. 20, No. 3, P. 291-298.
  • 9. Perkins Engines Company Limited: Technical Data 1100 Series. Industrial Open Power Until. 1104D-44TA 75,0 (Nett) @ 2200 rev/min Balanced. Perkins, England, 2008.
  • 10. PN-EN 14214+A1:2014-04 Liquid petroleum products. Fatty acid methyl esters (FAME) for use in diesel engines and heating applications. Requirements and test methods. (in Poland).
  • 11. Subbaiah1 G. V., Gopal K. R. 2011. An experimental investigation on the performance and emission characteristics of a diesel engine fuelled with rice bran biodiesel and ethanol blends. International Journal of Green Energy, 8/2011, P. 197-208.
  • 12. Szlachta Z. 2002. Power supply of diesel engines with rapeseed fuels. Communication Publishing House, Warshawa 2002. (in Poland).
  • 13. Tys J. i in. 2003: Technological and economic determinants of the production of rapeseed biofuels. Institute of Agrophysics im. Bohdan Dobrzański PAN w Lublinie. (in Poland).
  • 14. Tziourtzioumis D., Stamatelos A. 2012. Effects of a 70% biodiesel blend on the fuel injection system operation during steady-state and transient performance of a common rail diesel engine. Energy Conversion and Management 60/2012, P. 56-67.
  • 15. Wcisło G., Labak N. 2017. Determination of the impact of the type of animal fat used for production of biofuels on the fractional composition of AME. Econtechmod. An international quarterly journal. Volume 6, № 1. 111-114.
  • 16. Wcisło. G. 2010: Utilization of used oils and fat for manufacturing FAME biofuels. Teka Komisji Motoryzacji i Energetyki Rolnictwa, 2010, Vol. X, P. 509-516. 2010.
  • 17. Law of 25 August 2006 on the fuel quality monitoring and control system (Dz.U. 2006 Nr 169, poz. 1200). (in Poland).
  • 18. Wcisło G. 2017. Determining the effect of the addition of bio-components AME on the rheological properties of biofuels. Econtechmod. An international quarterly journal. Volume 6, № 1. 105-110.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-99292602-4202-4783-a52a-8b73ae6d2510
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.