SAMOCZYNNYM ZASILANYM PALIWEM BIOETANOLOWYM

513 Wojciech TUTAK SAMOCZYNNYM ZASILANYM PALIWEM BIOETANOLOWYM odpowiedni, takie jak wszelkiego rodzaju estry, oleje alkohole etylowe i metylowe oraz gazowe biogaz. Prowadzonych jest wiele prac tych paliw, jak i ich efektywnego wykorzystania. 1 Najpowszechniej stosowanym biopaliwem jest (CH 3 OH) i etylowy (C 2 H 5 a paliw alkoholowych do zasilania (metanol ia dostarczanej cylindra silnika i znacznie utrudnia uruchomienie zimnego silnika. Tej wady nie ma w si zasilania silnika dwupaliwowego realizowana jest na dwa sposoby, pierwszy u do silnika jednorodnej mieszanki paliw z wykorzystaniem konwencjonalnego - 1 R. Gnatowska, Formalno-prawne aspekty roz -143; R. Gnatowska, P. Pietrzak, Socio-Economic Development District in the Context of Rational Use of Energy and Environment s. 33-38; R. Gnatowska, Sz. Szumera, Analysis of the Use of the Purposes of Landfill Gas Energy from Waste Landfill, - -Kucharczyk, R. Gnatowska, Use of Local Renewable Energy Sources and Socio-Economic Development of Municipality nr 12 (690), s. 848-852.

514 dostarczania paliwa paliwa doprowadzane -b). 2 faz paliw. Rysunek nr 1: Sposoby realizacji silnika dwupaliwowego. a) b) w kolektorze dolotowym silnika 2 W. Tutak, Bioethanol E85 as a fuel for dual fuel diesel engine 2014, 86, s. 39-48.

515 silnika zasilanego olejem na wtryskiem dawki ON; ON; Negatywne aspekty silnika dwupaliwowego: 3 35-45% oraz ponad 4-krotne zmniejszenie zadymienia spalin w stosunku 4 wano LPG, jak i CNG. 5 wynika z poprawy s 6 3 Z. Stelmasiak, samoczynnym, 13-30. 4 Ibidem. 5 Ibidem; S. Luft, Dual-fuel compression ignition engine fuelled with LPG injection at liquid state, -297; Z. Stelmasiak, s. 285-293; S. Luft, spalania. -4, s. 31-6 S. Luft, A dual-fuel compression ignition engine distinctive features 2, (141), s. 33-39. -369. -4,,

516 Celem e 7 jak i symulacyjni 9 8 Charakterystyka paliwa W przeprowadzonych badaniach wykorzystano paliwo bioetanolowe E85., nie iskrowym. niewidocznym, a dodate wania tego paliwa (E85) jest 3-7 W. Tutak, Bioethanol E85 as a fuel for dual fuel diesel engine 2014, 86, s. 39-48; 16, no. 3, s. 311-318; W. Tutak, A. Jamrozik, Generator gas as a fuel to power a diesel engine. -216. 8 S. Wierzbicki, Effect of the parameters of pilot dose injection in a dual fuel diesel engine on the combustion process s. 499-506; Z. Stelmasiak, The combustion controlling in the dual fuel CI engine by pilot dose division, Analysis of performances of a dual-fuel turbocharged compression ignition engine, vol. 17, no. 3, s. 393-399. 9 A. Jamrozik, W. Tutak, A. Kociszewski, M. Sosnowski, Numerical simulation of two-stage combustion in SI engine with prechamber, -2982; S. Szwaja, A. Jamrozik, W. Tutak, A Two-Stage Combustion System for Burning Lean Gasoline -281; W. Tutak, An analysis of EGR impact on combustion process in the SI test engine, vol. 148, no. 1, s. 11-16; A. Jamrozik, W. Tutak, A study of performance and emissions of SI engine with a two-stage combustion system, -471; W. Tutak, Modelling and analysis of some parameters of thermal cycle of IC engine with EGR, -49; W. Tutak, A. Jamrozik, A. Kociszewski, Three dimensional modelling of combustion process in SI engine with exhaust gas recirculation, -208; A. Jamrozik, W. Tutak, Modelling of combustion process in the gas test engine Technologie International Conference, s. 14-17; W. Tutak, A. Jamrozik, A. Kociszewski, Improved emission characteristics of SI test engine by EGR pective -103.

517 ch dobrze jest, aby Tabela nr 1: 10 Parametr E85 C 10H 22 C 15H 32 C 2H 5OH+benzyna 190-220 - Liczba cetanowa 51 8 (etanol) 3 ) 42,5 29 3 ) 840 785 s) 2,8 1,2 260 780 Stechiometryczne zapotrzebowanie powietrza 14,7 9,7 316 365 (etanol) 280 (benzyna) - 3 2054 2120 (etanol) Badania przeprowadzono na 3- amoczynnym indywidualny wtrysk paliwa do kolektora dolot 10 Bhupendra Singh Chauhan, Naveen Kumar, Shyam Sunder Pal, Yong Du Jun, Experimental studies on fumigation of ethanol in a small capacity Diesel engine, Energy 2011, 36, s. 1030-1038; J. Campos- A comparison of performance of higher alcohols/diesel fuel blends in a diesel engine -275; B. Ihracska, T. Korakianitis, P. Ruiz, D. R. Emberson, J. R. Crookes, A. Diez, D. Wen, Assessment of elliptic flame front propagation characteristics of iso-octane, gasoline, M85 and E85 in an optical engine - Experimental investigation of the effect of E85 on engine performance and emissions under various ignition timings -832; G. Labeckas, S. Slavinskas, Study of exhaust emissions of direct injection diesel engine operating on ethanol, petrol and rapeseed oil blends, -812.

518 Tabela nr 2: Parametry silnika. Moc 24kW 2,9 dm 3 1500 obr/min 17:1 104 mm 115 mm 270 mm spalin Na rysunku nr ia - e samoczynnym. Rysunek nr 2: 10 8 6 0% of Q E85 /Q in fuel d 0.2 0,3% Qof E85 /Qin d fuel 0.9 0,92% Qof E85 E85 /Qin d fuel 40 39 38 4 37 2 36 0 330 360 390 420 o OWK 35 0 0,2 0,9 Q E85 /Q d Na rysunku nr wnie (85%) bioetanol (C 2 H 5

519 a paliwowo- prze z powrotem do komory spalania,, w czasie suwu ekspansji Rysunek nr 3: ergetycznych paliw. 1800 600 500 1700 400 300 1600 200 100 1500 0 0,2 0,9 0 0 0,2 0,9 Q E85 /Q d Q E85 /Q d Na rysunku nr tu. ze Rysunek nr 4: x) 2000 200 1500 150 1000 100 500 50 0 0 0,2 0,9 0 0 0,2 0,9 Q E85 /Q d Q E85 /Q d

520 wykorzystaniu paliwa E85, przez silnik. Przy 90% -krotny spadek emisji sadzy -krotny spadek emisji sadzy. do cylindra oraz drugi si m Wnioski W pracy przedstaw m jako silnik dwupaliwowy. Jako dwupaliwowego. zasilanie paliwem E85 powoduje wzrost emisji niespalonych, natomiast maleje emisja CO; na zadymienie spalin silnika dwupaliwowego; x x Streszczenie przeprowadzono na 3-cylindrowym silniku o. Badania, tem szczelinowym w komorze silnika. literatura,

521 udzi spalin silnik u etanol, spalanie, emisja Summary Paper presents results of investigation of dual fuel diesel engine powered by bioethanol fuel E85. Researches were performed using a three-cylinder a direct injection diesel engine. Fuel E85 was supplied to the engine, by injection into the intake system. An analysis of thermodynamic parameters of such engine was conducted. With E85 fuel participation, NO x, CO and soot emissions were reduced, whereas THC emission increased. It can be explained that some ethanol is trapped inside the crevice resulting in increased HC emissions. The share of E85 can effectively reduce soot emission. The reductions are due to the reduction of diesel fuel consumed as well as the increase in fraction of heat release in the premixed phase of combustion. Consistent with other studies, the soot emissions were largely dependent on oxygen content in the fuel. Key words: engine piston engine, dual, bioethanol, combustion, emission Bibliografia 1. Bhupendra Singh Chauhan, Naveen Kumar, Shyam Sunder Pal, Yong Du Jun, Experimental studies on fumigation of ethanol in a small capacity Diesel engine, 2. Campos- A comparison of performance of higher alcohols/diesel fuel blends in a diesel engine, 3. Gnatowska R., Formalnoenergii, z. 2/2. 4. Gnatowska R., Pietrzak P., Socio-Economic Development District in the Context of Rational Use of Energy and Environment, 5. Gnatowska R., Szumera Sz., Analysis of the Use of the Purposes of Landfill Gas Energy from Waste Landfill, 6. Ihracska B., Korakianitis T., Ruiz P., Emberson D. R., Crookes J. R., Diez A., Wen D., Assessment of elliptic flame front propagation characteristics of iso-octane, gasoline, M85 and E85 in an optical engine, 7. Jamrozik A., Tutak W., A study of performance and emissions of SI engine with a two-stage combustion system, 2011, 32 (4). 8. Jamrozik A., Tutak W., Kociszewski A., Sosnowski M., Numerical simulation of two-stage combustion in SI engine with prechamber, 37, Issue 5.

522 10. 9. Jamrozik A., Tutak W., Modelling of combustion process in the gas test engine, 11. Labeckas G., Slavinskas S., Study of exhaust emissions of direct injection diesel engine operating on ethanol, petrol and rapeseed oil blends, 12. Luft S., A dual-fuel compression ignition engine distinctive features, 13. Luft S., Dual-fuel compression ignition engine fuelled with LPG injection at liquid state, no. 1. 14. Luft S., procesu spalania. -4. 15. -Kucharczyk E., Gnatowska R., Use of Local Renewable Energy Sources and Socio-Economic Development of Municipality, 2012, nr 12 (690). 16. Dwupaliwowy silnik. 17. Analysis of performances of a dual-fuel turbocharged compression ignition engine, 18. Stelmasiak Z., Wybrane problemy stosowania gazu ziemnego do zasilania 19. Stelmasiak Z., The combustion controlling in the dual fuel CI engine by pilot dose division, 20. Stelmasiak Z., i gazem ziemnym, no 3-4. 21. Szwaja S., Jamrozik A., Tutak W., A Two-Stage Combustion System for Burning Lean Gasoline Mixtures in a Stationary Spark Ignited Engine, 22. Experimental investigation of the effect of E85 on engine performance and emissions under various ignition timings, 23. Tutak W., An analysis of EGR impact on combustion process in the SI test engine, 24. Tutak W., Bioethanol E85 as a fuel for dual fuel diesel engine Conve 25. Tutak W., Jamrozik A., Generator gas as a fuel to power a diesel engine.

523 26. Tutak W., Jamrozik A., Kociszewski A., Improved emission characteristics of SI test engine by EGR, 2011. 27. Tutak W., Jamrozik A., Kociszewski A., Three dimensional modelling of combustion process in SI engine with exhaust gas recirculation, 2011. 28. Tutak W., Modelling and analysis of some parameters of thermal cycle of IC engine with EGR, 29. Wierzbicki S., Effect of the parameters of pilot dose injection in a dual fuel diesel engine on the combustion process,