KEYWORDS
TOPICS
ABSTRACT
Among the fundamental factors affecting the emissions of internal combustion engines is the resistance to motion acting on the car. This is an important factor to be taken into account when testing cars in conditions simulated on a chassis dynamometer. The dependence of the driving resistance function on vehicle speed is determined on the basis of various methods, the most frequently used of which is the so-called alternative method specified in procedures for the type approval of motor vehicles with respect to the emission of pollutants in exhaust gases. The values adopted in accordance with the alternative method differ from the actual resistance acting on the car in road conditions. This is one of the reasons why the emission of pollutants and the fuel consumption of an engine in real road conditions differs from the values given by the car manufacturer, including the emission limits specified in the standards. This paper presents an evaluation of the influence of driving resistance on the energy demand and emission of pollutants in the exhaust gases by sample passenger car with SI engine fuelled by petrol and LPG.
REFERENCES (44)
1.
ANDRZEJEWSKI, M. Wpływ stylu jazdy kierowcy na zużycie paliwa i emisję substancji szkodliwych w spalinach. Praca doktorska. Wydział Maszyn Roboczych i Transportu. Politechnika Poznańska. Poznań 2013.
 
2.
ARCZYŃSKI, S. Mechanika ruchu samochodu. WNT. Warszawa, 1993.
 
3.
AVL AMA i60 Exhaust Measurement System Specification. AVL 2013.
 
4.
BARLOW, T.J., LATHAM, S., MCCARE, I.S. et al. A reference book of driving cycles for use in the measurement of road vehicle emissions. Project report PPR354. Transport Research Laboratory. https://assets.publishing.serv....
 
5.
BIELACZYC, P., WOODBURN, J., SZCZOTKA, A. Exhaust emissions of gaseous and solid pollutants measured over the NEDC, FTP-75 and WLTC chassis dynamometer driving cycles. SAE Technical Paper 2016-01-1008. 2016. https://doi.org/10.4271/2016-0....
 
6.
CHARYUNG, K., HYUNWOO, L., YONGSUNG, P. et al. Study on the criteria for the determination of the road load correlation for automobiles and an analysis of key factors. Energies. 2016, 9(8), 575. https://doi.org/10.3390/en9080....
 
7.
CHŁOPEK, Z., BIEDRZYCKI, J., LASOCKI, J. et al. Comparative examination of pollutant emission from an automotive internal combustion engine with the use of vehicle driving tests. Combustion Engines. 2016, 164(1), 56-64. https://doi.org/10.19206/CE-11....
 
8.
CUBITO, C., MILLO, F., BOCCARDO, G. et al. Impact of different driving cycles and operating conditions on CO2 emissions and energy management strategies of a Euro‐6 hybrid electric vehicle. Energies. 2017, 10, 1590. https://doi.org/10.3390/en1010....
 
9.
DUARTE, G., GONÇALVES, G., FARIAS, T. Analysis of fuel consumption and pollutant emissions of regulated and alternative driving cycles based on real-world measurements. Transportation Research Part D: Transport and Environment. 2016, 44, 43-54. https://doi.org/10.1016/j.trd.....
 
10.
FONTARAS, G., ZACHAROF, N.-G., CIUFFO, B. Fuel consumption and CO2 emissions from passenger cars in Europe - Laboratory versus real-world emissions. Progress in Energy and Combustion Science. 2017, 60, https://doi.org/10.1016/j.pecs....
 
11.
GOŁĘBIEWSKI, W. Relacje pomiędzy właściwościami trakcyjnymi pojazdu a zużyciem paliwa. Rozprawa doktorska. Zachodniopomorski Uniwersytet Technologiczny w Szczecinie. Wydział Inżynierii Mechanicznej i Mechatroniki. Szczecin 2014.
 
12.
JAWORSKI A. Odwzorowanie oporów ruchu samochodu podczas badań emisji zanieczyszczeń w spalinach na hamowni podwoziowej. Monografia: Systemy i środki transportu: konstrukcja i badania: wybrane zagadnienia. Nr. 21. Oficyna Wydawnicza Politechniki Rzeszowskiej. Rzeszów 2020.
 
13.
JAWORSKI, A. Problematyka wyznaczania współczynników oporów ruchu samochodów do badań emisji zanieczyszczeń spalin w warunkach symulowanych na hamowni podwoziowej. Висник Нацiональнoго Транспортного Унiверситету. 2019, 3(45), 52-58, Kijów.
 
14.
JAWORSKI, A., BOICHENKO, S., MADZIEL, M. et al. Comparative assessment of CO2 emissions and fuel consumption in a stationary test of the passenger car running on various fuels. Наукоємні технології. 2020, 3(47). https://doi.org/10.18372/2310-....
 
15.
JAWORSKI, A., MĄDZIEL, M., KUSZEWSKI, H. et al. The impact of driving resistances on the emission of exhaust pollutants from vehicles with the spark ignition engine fuelled with petrol and LPG. SAE Technical Paper 2020-01-2206. 2020. https://doi.org/10.4271/2020-0....
 
16.
JAWORSKI, A., LEJDA, K., MĄDZIEL, M. Assessment of the emission of harmful car exhaust components in real traffic conditions. IOP Conferences Series: Materials Science and Engineering. 2018, 421, 042031. https://doi.org/10.1088/1757-8....
 
17.
JAWORSKI, A., KUSZEWSKI, H., USTRZYCKI, A. et al. Analysis of the repeatability of exhaust pollutans emission research for cold and hot starts under controlled driving cycle conditions. Environmental Science and Pollution Research. 2018, 25, 17862-17877. https://doi.org/10.1007/s11356....
 
18.
JAWORSKI, A., KUSZEWSKI, H., USTRZYCKI, A. Wyznaczanie współczynników symulacji oporów ruchu w badaniach na hamowni podwoziowej. Logistyka. 2015, 4.
 
19.
JAWORSKI, A., MĄDZIEL, M., LEJDA, K. Creating an emission model based on portable emission measurement system for the purpose of a roundabout. Environmental Science and Pollution Research. 2019, 26(21), 21641-21654. https://doi.org/10.1007/s11356....
 
20.
JAWORSKI, A., MĄDZIEL, M., KUSZEWSKI, H. et al. Analysis of cold start emission from light duty vehicles fueled with gasoline and LPG for selected ambient temperatures. SAE Technical Papers 2020‐01‐2207. 2020. https://doi.org/10.4271/2020‐0....
 
21.
JIMÉNEZ, J.L., MCLINTOCK, P.M., MCRAE, G.J. et al. Vehicle specific power: a useful parameter for remote sensing and emissions studies. Ninth CRC On-Road Vehicle Emissions Workshop. San Diego, California, 04.1999. http://cires.colorado.edu/~jjo....
 
22.
LEJDA, K., JAWORSKI, A., MĄDZIEL, M. et al. Assessment of petrol and natural gas vehicle carbon oxides emissions in the laboratory and on-road tests. Energies. 2021, 14(6), 1631. https://doi.org/10.3390/en1406....
 
23.
KADIJK, G., LIGTERINK, N. Road load determination of passenger cars. 2012, Report TNO. 04.2019. https://www.tno.nl/media/1971/....
 
24.
KÜHLWEIN, J. The impact of official versus real-world road loads on CO2 emissions and fuel consumption of European passenger cars. The International Council On A Clean Transportation. 2016.. https://www.theicct.org/sites/... (accessed on 12.04.2019).
 
25.
MERKISZ, J., PIELECHA, J., JASIŃSKI, R. Ekologiczna ocena samochodów osobowych w drogowych testach emisyjnych. Technika Transportu Szynowego. 2015, 12.
 
26.
MERKISZ, J., PIELECHA, J., JASIŃSKI, R. Ocena emisji spalin pojazdów kategorii Euro 6 w testach drogowych. Prace Naukowe Politechniki Warszawskiej. 2017, 115.
 
27.
MERKISZ, J., PIELECHA, J., GIS, W. Gasoline and LPG vehicle emission factors in a road test. SAE Technical Paper 2009-01-0937. 2009. https://doi.org/10.4271/2009-0....
 
28.
MERKISZ, J., PIELECHA, J., BIELACZYC, P. et al. Analysis of emission factors in RDE tests as well as in NEDC and WLTC chassis dynamometer tests. SAE Technical Paper 2016-01-0980. 2016. https://doi.org/10.4271/2016-0....
 
29.
MERKISZ, J., PIELECHA, J., BIELACZYC, P. et al. A comparison of tailpipe gaseous emissions from the RDE an WLTP test procedures on a hybrid passenger car. SAE Technical Papers 2020‐01‐2217. 2020. https://doi.org/10.4271/2020‐0....
 
30.
MERKISZ, J., RYMANIAK, Ł. The assessment of vehicle exhaust emissions referred to CO2 based on the investigations of city buses under actual conditions of operation. Eksploatacja i Niezawodnosc – Maintenance and Reliability. 2017, 19(4), 522-529. https://doi.org/10.17531/ein.2....
 
31.
MERKISZ-GURANOWSKA, A., PIELECHA, J. Emisja zanieczyszczeń z pojazdów samochodowych a parametry ruchu drogowego. Oficyna Wydawnicza Politechniki Warszawskiej. Warszawa 2014.
 
32.
PELKMANS, L., DEBAL, P. Comparison of on-road emissions with emissions measured on chassis dynamometer test cycles, Transportation Research Part D: Transport and Environment. 2006, 11(4), 233-241. https://doi.org/10.1016/j.trd.....
 
33.
PIELECHA, J., MERKISZ, J., KURTYKA, K. et al. Cold start emissions of passenger cars with gasoline and diesel engines in real driving emissions tests. Combustion Engines. 2019, 179(4), 160-168. https://doi.org/10.19206/CE-20....
 
34.
Regulation No 101 of the Economic Commission for Europe of the United Nations (UN/ECE) — Uniform provisions concerning the approval of passenger cars equipped with an internal combustion engine with regard to the measurement of the emission of carbon dioxide and fuel consumption and of categories M1 and N1 vehicles equipped with an electric power train with regard to the measurement of electric energy consumption and range. Dostęp: 2-11-2020 https://op.europa.eu/en/public....
 
35.
Šarkan, B., Skrúcaný, T., Semanová, Š., Madleňák, R. et al. Vehicle coast-down method as a tool for calculating total resistance for the purposes of type-approval fuel consumption. Scientific Journal of Silesian University of Technology. Series Transport. 2018, 98. https://doi.org/10.20858/sjsut....
 
36.
Service Manual 2014 AVL- ROADSIM 48”.
 
37.
Statistics Poland. Transport and Communication. Vehicles by Age Groups. https://bdl.stat.gov.pl/BDL/da....
 
38.
STOJECKI, A. Badania wpływu topografii terenu na emisję związków szkodliwych spalin samochodów osobowych. Rozprawa doktorska. Wydział Maszyn Roboczych i Transportu. Politechnika Poznańska. Poznań 2015.
 
39.
SYNÁK, F., RIEVAJ, V. The impact of driving resistances of a vehicle on global pollution. 17th International Scientific Conference Globalization and Its Socio-Economic Consequences. University of Zilina. Dostęp: 14.06.2021. https://www.researchgate.net/p....
 
40.
SZCZOTKA, A., PUCHAŁKA, B., BIELACZYC, P. et al. Influence of the chassis dynamometer regulation on the exhaust emission results. AUTOBUSY – Technika, Eksploatacja, Systemy Transportowe. 2019, 24(6), 280-285. https://doi.org/10.24136/atest....
 
41.
TIETGE, U., ZACHAROF, N., MOCK, P. et al. From laboratory to road – a 2015 update of official and “real‐world” fuel consumption and CO2 values for passenger cars in Europe. International Council on Clean Transportation. 2015. https://theicct.org/sites/defa....
 
42.
TSIAKMAKIS, S., FONTARAS, G., CUBITO, C. et al. From NEDC to WLTP: effect on the type-approval CO2 emissions of light-duty vehicles. EUR 28724 EN. Publications Office of the European Union. Luxembourg 2017. https://doi.org/10.2760/93419.
 
43.
UNECE. Regulamin nr 83 Europejskiej Komisji Gospodarczej Organizacji Narodów Zjednoczonych (EKG ONZ) – Jednolite przepisy dotyczące homologacji pojazdów w zakresie emisji zanieczyszczeń w zależności od paliwa zasilającego silnik. https://eur-lex.europa.eu/lega....
 
44.
ZACHAROF, N., FONTARAS, G., CIUFFO, B. et al. Review of in use factors affecting the fuel consumption and CO2 emissions of passenger cars. Euro Commission. Luxembourg 2016. https://core.ac.uk/download/pd....
 
 
CITATIONS (5):
1.
ArtEMon: Artificial Intelligence and Internet of Things Powered Greenhouse Gas Sensing for Real-Time Emissions Monitoring
Ali Yavari, Irfan Mirza, Hamid Bagha, Harindu Korala, Hussein Dia, Paul Scifleet, Jason Sargent, Caroline Tjung, Mahnaz Shafiei
Sensors
 
2.
Towards Cleaner Cities: An Analysis of the Impact of Bus Fleet Decomposition on PM and NOX Emissions Reduction in Sustainable Public Transport
Artur Jaworski, Vasyl Mateichyk, Hubert Kuszewski, Maksymilian Mądziel, Paweł Woś, Bożena Babiarz, Mirosław Śmieszek, Sławomir Porada
Energies
 
3.
Exhaust Emissions from Euro 6 Vehicles in WLTC and RDE—Part 2: Verification by Experimental Measurement
Jacek Pielecha, Karolina Kurtyka
Energies
 
4.
Determination of the resistance to motion of a cargo train when driving without a drive
Wojciech Sawczuk, Sławomir - Kołodziejski, Armando Miguel Rilo Cañás
Combustion Engines
 
5.
Assessment of CH4 Emissions in a Compressed Natural Gas-Adapted Engine in the Context of Changes in the Equivalence Ratio
Artur Jaworski, Hubert Kuszewski, Krzysztof Balawender, Paweł Woś, Krzysztof Lew, Mirosław Jaremcio
Energies
 
eISSN:2658-1442
ISSN:2300-9896
Journals System - logo
Scroll to top