Metrika

  • citati u SCIndeksu: 0
  • citati u CrossRef-u:0
  • citati u Google Scholaru:[]
  • posete u poslednjih 30 dana:3
  • preuzimanja u poslednjih 30 dana:3

Sadržaj

članak: 5 od 392  
Back povratak na rezultate
2021, vol. 49, br. 3, str. 749-755
Kontrola emisije ugljovodonika pri promeni tehničkog stanja izduvnog sistema kod modernih automobila
aSouth Ural State University, Automobile and Tractor Faculty, Russia
bSouth Ural State University, Automobile and Tractor Faculty, Russia + South Ural State Agrarian University, Russia

e-adresashepelevvd@susu.ru
Ključne reči: control; diagnostics; gas analyzer; internal combustion engine; catalytic converter
Sažetak
Metod koji se najviše primenjuje za praćenje rada SUS motora je selektivna kontrola sa pojedinačnim korekcijama trenutnog tehničkog stanja. Kombinacija gasnog analizatora, postavljenog u svakom kolektoru, uređaja za ispitivanje motora i utovarivača omogućava identifikovanje otkaza kod izduvnog i svih ostalih sistema sa velikom preciznošću i preduzimanje pojedinačnih korekcija kako bi se obezbedili ekološki i ekonomski parametri. Razvili smo uopšteni matematički model promena sastava izduvnih gasova u zavisnosti od promena otpora u katalitičkom konvertoru, zazora kod svećica i kapaciteta elektromagnene mlaznice.
Reference
Aithal, S.M. (2018) Sensitivity of Emissions to Uncertainties in Residual Gas Fraction Measurements in Automotive Engines: A Numerical Study. Journal of Combustion, 2018(7237849): 1-13
Bell, S.S. (2012) A method for determining the rate of chemical reactions in the processes of neutralizing exhaust gases. News of Moscow State Machine-Building Technical University, Vol. 2, No. 14, pp. 266-270
Bingamil, A., Alsyouf, I., Cheaitou, A. (2017) Condition monitoring technologies, parameters and data processing techniques for fault detection of internal combustion engines: A literature review. u: The 2017 International Conference on Electrical and Computing Technologies and Applications, 21-23.11., Ras Al Khaimah, Proceedings, 1-5
Chandra, S., Camal, F. (2016) A simulation-based evaluation of connected vehicle technology for emissions and fuel consumption. u: The International Conference on Sustainable Design, Engineering and Construction, 18-20.05.2016, Arizona State University, Tempe, Proceedings, Vol. 145, pp. 296-303
Delvecchio, S., Bonfiglio, P., Pompoli, F. (2018) Vibro-acoustic condition monitoring of internal combustion engines: A critical review of existing techniques. Mechanical Systems and Signal Processing, 99, 661-683
Galiullin, L.A., Valiev, R.A. (2016) Modeling of internal combustion engines test conditions based on neural network. International Journal of Pharmacy and Technology, 8(3): 14902-14910
Galiullin, L.A., Valiev, R.A. (2020) Development of Hardware-Algorithmic System for ICE Diagnostics. u: The International Conference on Industrial Engineering (5th), 25-29.03.2019, Sochi, Proceedings, 457-467
Gritsenko, A., Zadorozhnaya, E., Shepelev, V., Gimaltdinov, I. (2019) Parameters of Internal Combustion Engine Efficiency While Introducing Additives in the Oil. Tribology in Industry, 41(4): 592-603
Gritsenko, A.V., Almetova, Z.V., Rudnev, V.V. (2019) Monitoring Engine Toxicity Parameters and Selective Control of Its System Operation. u: The International Conference on Industrial Engineering (5th), 25-29.03., Sochi, Proceedings, 829-838
Gritsenko, A.V., Shepelev, V.D., Shepeleva, E.V. (2019) Optimizing Consumption of Gas Fuel Using Static Method of Tuning Automobile Gas-Cylinder Equipment. Lecture Notes in Mechanical Engineering, 2163-2173
Hochhauser, A.M. (2009) Review of Prior Studies of Fuel Effects on Vehicle Emissions. SAE International Journal of Fuels and Lubricants, 2(1): 541-567
Jardine, A.K.S., Lin, D., Banjević, D. (2006) A review on machinery diagnostics and prognostics implementing condition-based maintenance. Mechanical Systems and Signal Processing, 20(7): 1483-1510
Joshi, A. (2020) Review of vehicle engine efficiency and emissions. u: The SAE 2020 World Congress Experience, TCF Center, Detroit, 21-23.04.2020, Proceedings, Vol. 2020-April
Kimmich, F., Isermann, R. (2002) Model-based fault detection for the injection, combustion and engine-transmission. u: The World Congress of the International Federation of Automatic Control (15th), 21-26.07., Barcelona, Proceedings, Vol. 15, No. 1, pp 203-208
Kimmich, F., Schwarte, A., Isermann, R. (2005) Fault detection for modern Diesel engines using signal and process model-based methods. Control Engineering Practice, 13(2): 189-203
Knežević, D.M., Petrović, V.S., Vorotović, G.S., Pajković, V.R., Bralović, P.D. (2020) Combustion characteristics of several types of biofuel in a diesel engine. FME Transactions, vol. 48, br. 2, str. 319-328
Kozina, A., Radica, G., Nižetić, S. (2020) Analysis of methods towards reduction of harmful pollutants from diesel engines. Journal of Cleaner Production, 262(121105): 121105-121105
Kulzer, A.C., Deeg, H.P., Villforth, J., Schwarzenthal, D., Schilling, M., Barrientos, E., Kanach, B., Lindner, M. (2020) Sustainable Mobility Using Fuels with Pathways to Low Emissions. u: The SAE 2020 World Congress Experience, TCF Center, Detroit, 21-23.04.2020, Proceedings, Vol. 2020-April
Organ, B., Huang, Y., Zhou, J.L., Yam, Y., Mok, W., Chan, E.F.C. (2020) Simulation of engine faults and their impact on emissions and vehicle performance for a liquefied petroleum gas taxi. Science of the Total Environment, 716(137066): 137066-137066
Reif, K., et al., eds. (2004) Automotive Handbook. Moscow: Bosch, 2nd ed. (in Russian)
Rementsov, A.N., Zenchenko, V.A., Tien, N.M. (2010) An alternative approach to assessing the technical condition of electronic engine control systems. Bulletin of Moscow Automobile and Road Construction State Technical University, Vol. 4, No. 23, pp. 27-30
Vinodh, K.K.G., Senthilkumar, S., Rajasingh, E. (2019) Experimental and Numerical Prediction of the Pressure Drop Reduction of Catalytic Converter under Various Mass Flow Rate of Exhaust Gas for a Naturally Aspirated Diesel Engine. SAE Technical Papers, October
Wierzbicki, S. (2019) Evaluation of the effectiveness of on-board diagnostic systems in controlling exhaust gas emissions from motor vehicles. Diagnostyka, 20(4): 75-79
Zadŗg, R., Tomasz, K. (2018) Ranking of toxic compound concentrations as diagnostic parameters of marine internal combustion engine. Polish Maritime Research, 25(s1): 234-242
 

O članku

jezik rada: engleski
vrsta rada: neklasifikovan
DOI: 10.5937/fme2103749S
primljen: 15.06.2020.
prihvaćen: 15.05.2021.
objavljen u SCIndeksu: 30.07.2021.
Creative Commons License 4.0

Povezani članci