Identyfikatory
Warianty tytułu
Efficiency of internal combustion engines with compression ignition fuelled with Bioxdiesel fuel with fully renewable components
Języki publikacji
Abstrakty
W artykule przedstawiono właściwości fizyko-chemiczne i analizę składu biokomponentów (estrów etylowych i etanolu) oraz właściwości trójkomponentowego paliwa o nazwie Bioxdiesel. Oceniono wpływ tego paliwa na własności użytkowe silników o ZS. Wykazano, że w aspekcie efektywności paliwa pochodzenia roślinnego i z odpadowych tłuszczów zwierzęcych mogą stanowić alternatywne paliwo do silników o ZS.
The article presents the physico-chemical properties and analysis of biocomponents' composition (ethyl esters and ethanol) and properties of three-component fuel named Bioxdiesel. The influence of this fuel on utility properties of Diesel engines was evaluated. It has been shown that the fuels produced from plant and animal’s waste fats, in terms of the efficiency of the engines may provide an alternative fuel for Diesel engines.
Czasopismo
Rocznik
Tom
Strony
108--115
Opis fizyczny
Bibliogr. 15 poz., wykr.
Twórcy
autor
- Politechnika Wrocławska, Wydział Mechaniczno-Energetyczny, Wrocław
Bibliografia
- [1] DEMIRBAS A., 2001, Biomass resource facilities and biomass conversion processing for fuels and chemicals, Energy Convers Manage, 42, 1357–78.
- [2] REIJNDERS L., 2006, Conditions for the sustainability of biomass based fuel use, Energy Policy, 34, 863–76.
- [3] SZLACHTA Z., 1998, Cold startability of the diesel engine fuelled with rape fuels, Polish academy of Sciences – Cracow Branch. Edit. Commission of Motorization, Cracow, 13/1, 1–67.
- [4] MURUYAMA T., OH Y., MIYAMOTO N., CHIKAHISA T., TAKAGI N., ITOW K., 1984, Low carbon flower buildup, low smoke, and efficient diesel operation with vegetable oils by conversion to mono-esters and blending with diesel oil or alcohols, SAE Transactions, 84, 1161.
- [5] ALAMU O.J., WAHEED M.A., JEKAYINFA S.O,. 2008; Effect of ethanol- palm kernel oil ratio on alkali – catalized biodiesel yield, Fuel, 87, 1529–1533.
- [6] BALA B.K., 2005, Studies on biodiesels from transformation of vegetable oils for diesel engines, Energy Edu Sci Technol., 15, 1–43.
- [7] ZHANG Y., DUB M.A., MCLEAN D.D., KATES M., 2003, Biodiesel production from waste cooking oil: 2. Economic assessment and sensitivity analysis, Bioresource Technol, 90, 229–40.
- [8] LIMA J.R.O., SILVA R.B., MOURA E.M., MOURA C.V.R., 2008, Biodiesel of tucum oil, synthesized by methanolic and ethanolic routes, Fuel, 87, 1718–1723.
- [9] STRUŚ M., KOWALSKI K., 1995, Fuel from rapeseed using in combat vehicles, Proecological combustion engines, Szczecin University of Technology. Szczecin.
- [10] STRUŚ M., 2001, Feeding of multicapacity diesel engines by plant orgin fuels, II International Scientifically Technical Conference, Explo-Diesel and Gas Turbine, Gdańsk – Kopenhaga.
- [11] STRUŚ M., 2001, Diesel motors of combat vehicles in the aspect of their alternative feeding by vegetable fuels, 8-The European Automotive Congress, Europe And The Second Century of Auto-Mobility, Bratislava.
- [12] STRUŚ M., 2002, Alternative feeding of Diesel engines, Problems of maintenance of power units, KONSSPAL 2002, TKMA, Wrocław.
- [13] STRUŚ M., 2005, The efficiency of use of biodiesel and biocomponents for internal combustion engines, Journal of KONES, Internal combustion engines, European Science Society of Powertrain and Transport Publication, Warsaw, 12/3–4.
- [14] KOŁODZIEJ H., PIĘTAK A., STRUŚ M., VOGT A., 2006, Properties of biofuels with ethyl components to diesel engines, Journal of KONES, Powertrain and Transport Publication, Warsaw, European Science Society of Powertrain and Transport Publication, 13/3.
- [15] STRUŚ M., 2012, Ocena wpływu biopaliw na wybrane właściwości eksploatacyjne silników o zapłonie samoczynnym, Oficyna Wydawnicza Politechniki Wrocławskiej, Wrocław.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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