KEYWORDS
TOPICS
ABSTRACT
The article presents a comparative analysis of heat release rate in a spark-ignition reciprocating engine powered by various fuels as follows: butanol, gasoline, a mixture of butanol with tire pyrolysis oil (TPO), and mixtures of butanol with oil from biomass pyrolysis (BPO). Selected combustion phases were analyzed. Additionally, ignition delay calculations were performed in the ANSYS Chemkin Pro program for the surrogates of the tested fuels. The ignition delay was calculated using the closed isolated homogeneous reactor. Popular surrogates quoted in numerous publications were used as substitute fuels. The paper presents an original four components surrogate of oil from tire pyrolysis.
 
REFERENCES (20)
1.
ALKHATIB, R. Development of an alternative fuel from waste of used tires by pyrolysis. Environmental Engineering. 2014. Ecole des Mines de Nantes.
 
2.
BOGARRA-MACIAS, M., DOUSTDAR, O., FAYAD, M.A. et al. Performance of a drop-in biofuel emulsion on a single-cylinder research diesel engine. Combustion Engines. 2016, 166(3), 9-16. http://doi.org/10.19206/CE-201....
 
3.
CHWIST, M., PYRC, M., GRUCA, M. et al. By-products from thermal processing of rubber waste as fuel for the in-ternal combustion piston engine. Combustion Engines. 2020, 181(2), 11-18. https://doi.org/10.19206/CE-20....
 
4.
CHWIST, M., SZWAJA, S., GRAB-ROGALIŃSKI, K. et al. Bio-oil blended butanol as a fuel to the spark ignition in-ternal combustion reciprocating engine. Combustion Engines. 2017, 169(2), 93-96. https://doi.org/10.19206/CE-20....
 
5.
HEYWOOD, J.B. Internal Combustion Engine Fundamen-tals. Mcgraw-Hill College. 1988.
 
6.
JUMA, M., KORENOVA, Z., MARKOS, J. et al. Pyrolysis and combustion of Scrap tire. Petroleum & Coal. 2006, 48(1), 15-26.
 
7.
KARDAŚ, D., KLUSKA, J., KLEIN, M. et al. Modelowe kompleksy agroenergetyczne: Teoretyczne i eksperymentalne aspekty pirolizy drewna i odpadów. Wydawnictwo UWM. 2014.
 
8.
KOLODZIEJ, C.P., WALLNER, T. Combustion characteris-tics of various fuels during research octane number testing on an instrumented CFR F1/F2 engine. Combustion Engines. 2017, 171(4), 164-169. https://doi.org/10.19206/CE-20....
 
9.
KOMENDA, P. Analiza procesu termicznej przeróbki bioma-sy. 2019. Monografie nr 154. Wydawnictwo PAN. Komitet Inżynierii Środowiska. Warszawa.
 
10.
KRUGER, C. Evaluation of pyrolysis with LCA 3 – case studies, BASF SE, 31.07.2021.
 
11.
LEHTO, J., OASMAA, A., SOLANTAUSTA, Y. et al. Fuel oil quality and combustion of fast pyrolysis bio-oils. VTT Technology. 2013. 87, 79.
 
12.
MAURO, S., SENER, R., GÜL, Z.M. et al. Internal com-bustion engine heat release calculation using single-zone and CFD 3D numerical models. International Journal of Energy and Environmental Engineering. 2018, 9, 215-226. http://doi.org/10.1007/s40095-....
 
13.
MIKULSKI, M., AMBROSEWICZ-WALACIK, M., HU-NICZ, J. et al. Combustion engine applications of waste tire pyrolytic oil. Progress in Energy and Combustion Science. 2021, 85, 100915. https://doi.org/10.1016/j.pecs....
 
14.
MORGAN, N., SMALLBONE, A., BHAVE, A. et al. Map-ping surrogate gasoline compositions into RON/MON space. Combustion and Flame. 2010, 157, 6. https://doi.org/10.1016/j.comb....
 
15.
OASMAA, A., OHRA-AHO, T., LINDFORS, C. Physico-chemical properties of FPBO. 2017, D3.3. Renewable resi-dential heating with fast pyrolysis bio-oil report, VTT.
 
16.
RANZI, E., FRASSOLDATI, A., STAGNI, A. et al. Reduced kinetic schemes of complex reaction systems. Fossil and biomass-derived transportation fuels. International Journal of Chemical Kinetics. 2014, 46(9), 512-542. https://doi.org/10.1002/kin.20....
 
17.
SAJDAK, M., MUZYKA, R. Use of plastic waste as a fuel in the co-pyrolysis of biomass. Part I. The effect of the addition of plastic waste on the process and products. Journal of Analytical and Applied Pyrolysis. 2014, 107, 267-275. https://doi.org/10.1016/j.jaap....
 
18.
SIERADZKA, M., RAJCA, P., ZAJEMSKA, M. et al. Prediction of gaseous products from refuse derived fuel pyrolysis using chemical modelling software – Ansys Chemkin-Pro. Journal of Cleaner Production. 2020, 248, 119277. https://doi.org/10.1016/j.jcle....
 
19.
SZWAJA, M., CHWIST, M., SZWAJA, S. et al. Impact of pyrolysis oil addition to ethanol on combustion in the internal combustion spark ignition engine. Clean Technologies. 2021, 3(2), 450-461. https://doi.org/10.3390/cleant....
 
20.
UCAR, S., KARAGOZ, S., OZKAN, A.R. et al. Evaluation of two different scrap tires as hydrocarbon source by pyroly-sis. Fuel. 2005, 84, 1884-1892. https://doi.org/10.1016/j.fuel....
 
eISSN:2658-1442
ISSN:2300-9896