PL EN
PRACA ORYGINALNA
Assessment of Traffic Noise Levels in the City of Pila
 
Więcej
Ukryj
1
Department of Transport, Stanisław State Staszic University of Applied Sciences in Piła, Polska
 
2
Depratrment of Transport, Stanisław State Staszic University of Applied Sciences in Piła, Polska
 
3
Faculty of Technology, The Institute of Technology and Business in České Budějovice, Czech Republic
 
 
Data nadesłania: 22-05-2023
 
 
Data ostatniej rewizji: 20-06-2023
 
 
Data akceptacji: 25-06-2023
 
 
Data publikacji: 30-06-2023
 
 
Autor do korespondencji
Lenka Ližbetinová   

Faculty of Technology, The Institute of Technology and Business in České Budějovice, Okružní 517/10, 37001, České Budějovice, Czech Republic
 
 
The Archives of Automotive Engineering – Archiwum Motoryzacji 2023;100(2):75-83
 
SŁOWA KLUCZOWE
DZIEDZINY
STRESZCZENIE
The last few decades have been characterized by the rapid development of technology and various industries around the world, as well as increasing levels of urbanization. The development of technology has resulted in the emergence of many inventions, vehicles and equipment. This has resulted in many unforeseen consequences generating threats to the environment in which humans’ function. One of these hazards is the noise emitted by vehicles. For this reason, environmental protection was created in response to threats to human existence [1]. For this reason, the main objective of this work is to determine the level of noise resulting from traffic transportation in the city of Sawtooth. In order to achieve the given objective in the city, sound values will be adopted and an acoustic map will be developed based on them. A large amount of noise in the city of Pila is caused by road transportation, but from the results of the study it can be said that it is minimally exceeded only on two streets by less than 5 decibels and on 3 other streets where it is equal to the permissible noise value. The main places where the most noise is generated are two-lane roads and traffic lights and traffic circles. A lot of noise is generated when there are a large number of vehicles slowing down and starting in these places. A very big plus in the fight against noise in Pila is public transportation.
REFERENCJE (27)
1.
Akgüngör A.P., Demirel A.: Investigating urban traffic based noise pollution in the city of Kirikkale, Turkey. Transport. 2008, 23(3), 273–278, DOI: 10.3846/1648-4142.2008.23.273-278.
 
2.
Ambroszko W.: Sources of noise in motor vehicles. Study of traffic noise in a selected locality and evaluation of its impact on safety (Źródła hałasu w pojazdach samochodowych: badania hałasu w ruchu drogowym w wybranej miejscowości i ocena jego wpływu na bezpieczeństwo), Wroclaw University of Technology 26 June 2019.
 
3.
Bartuska L., Hanzl J., Lizbetin J.: Urban Traffic Detectors Data Mining for Determination of Variations in Traffic Volumes, The Archives of Automotive Engineering – Archiwum Motoryzacji. 2020, 90(4), 15–31, DOI: 10.14669/AM.VOL90.ART2.
 
4.
Božić J., Ilić P., Bjelić L.S.: Economic Aspects of the City Traffic Noise: Case Study/ (Ekonomski aspekti buke od gradskog saobraćaja: studija slučaja. Emc review. Časopis za ekonomiju i tržišne komunikacije), Economy and market communication review. 2018, 8(1), 134–149, DOI: 10.7251/EMC1801134B.
 
5.
Chebil J., Ghaeb J., Fekih M.A., Habaebi M.H.: Assessment of Road Traffic Noise: A Case Study in Monastir City. Jordan journal of mechanical and industrial engineering. 2019, 13(3), 149–154.
 
6.
Ciop: Exposure assessment principles and test methods. https://m.ciop.pl/CIOPPortalWA...= (accessed on 15.08.2022).
 
7.
Čubranić-Dobrodolac M., Švadlenka L., Čičević S., Dobrodolac M.: Modelling driver propensity for traffic accidents: a comparison of multiple regression analysis and fuzzy approach. International Journal of Injury Control and Safety Promotion. 2020, 27(2), 156–167, DOI: 10.1080/17457300.2019.1690002.
 
8.
Cubranic-Dobrodolac, M., Svadlenka, L., Cicevic, S., Trifunovic, A., Dobrodolac, M.: Using the Interval Type-2 Fuzzy Inference Systems to Compare the Impact of Speed and Space Perception on the Occurrence of Road Traffic Accidents. Mathematics. 2020. 8(9), 1548, DOI: 10.3390/math8091548.
 
9.
Dudziak A., Caban J.: The Urban Transport Strategy on the Example of the City Bike System in the City of Lublin in Relation to the Covid-19 Pandemic. LOGI - Scientific Journal on Transport and Logistics. 2022, 13(1), 1–12, DOI: 10.2478/logi-2022-0001.
 
10.
Geoportal: Acoustic map of Wroclaw (Mapa akustyczna Wrocławia). http://geoportal.wroclaw.pl/ww... (accessed: 15.08.2022).
 
11.
Geoportal: Noise map – acoustic map (Mapa hałasu – mapa akustyczna): https://geoportal360.pl/blog/m... (accessed: 15.08.2022).
 
12.
Geoportal360: https://geoportal360.pl/map/#l... (accessed on 23.08.2022).
 
13.
Hobotest: HT622B Digital Sound Level Meters 30~130dB Measuring Range Portable Sound Level Meter: https://www.habo-test.com/sale... (accessed on 15.08.2022).
 
14.
Kaczmarska - Kozłowska A.: Hazard of low-frequency noise of drivers of means of road transport (Zagrożenie hałasem niskoczęstotliwościowym kierowców środków transportu drogowego), Central Institute for Labour Protection - National Research Institute Warsaw, December 2010.
 
15.
Kalda G.: Protection against noise (Ochrona przed hałasem), Publishing House of the Rzeszów University of Technology, Rzeszów 2020.
 
16.
Kerimov, M., Safiullin, R., Marusin, A., Marusin A.: Evaluation of functional efficiency of automated traffic enforcement systems. Transportation Research Procedia. 2017, 20, 288–294, DOI: 10.1016/j.trpro.2017.01.025.
 
17.
Kokowski P., Gałuszka M., Gruszka J., Kaczmarek T., Kaszewski P., Kowalczuk, M., et al.: Acoustic map of the city of Poznań (Mapa akustyczna miasta Poznania), Urząd Miasta Poznania, 2017. http://195.216.117.150/sip/inc... (accessed on 15.08.2022).
 
18.
Kucharski R.J., Biniaś K., Danecki R., Grabowski J., Szymański Z., Taras A.: Guidelines for preparing acoustic maps Revised version (Wytyczne do sporządzania map akustycznych). Główny inspektorat ochrony środowiska, Instytut ochrony środowiska – państwowy instytut badawczy. Warsaw, 2016. http://www.gios.gov.pl/images/... (accessed on 15.08.2022).
 
19.
Li Q., Qiao F., Yu L.: Impacts of pavement types on in-vehicle noise and human health. Journal of The Air & Waste Management Association. 2016, 66(1), 87–96, DOI: 10.1080/10962247.2015.1119217.
 
20.
Lizbetinova L., Lejskova P., Nedeliakova E., Caha Z., Hitka M.: The growing importance of ecological factors to employees in the transport and logistics sector. Economic Research-Ekonomska Istrazivanja. 2022, 35(1), 4379–4403, DOI: 10.1080/1331677X.2021.2013275.
 
21.
Makosz E., Dudzikowski Ł., Kowalczyk K., Bereda A.: Acoustic map for sections of railroad lines on which more than 30,000 trains per year pass, prepared for the purpose of state environmental monitoring (Mapa akustyczna dla odcinków linii kolejowych, po których przejeżdża ponad 30 000 pociągów rocznie, opracowana dla potrzeb państwowego monitoringu środowiska). Wielkopolska Voivodeship, PKP Polskie Linie Kolejowe S.A. Warszawa, październik 2017. https://bip.umww.pl/artykuly/2... (accessed on 15.08.2022).
 
22.
Meschik M.: Reshaping City Traffic Towards Sustainability Why Transport Policy should Favor the Bicycle Instead of Car Traffic. Procedia - Social and Behavioral Sciences. 2012, 48, 495–504, DOI: 10.1016/J.SBSPRO.2012.06.1028.
 
23.
Minister of the Environment: Regulation of the Minister of the Environment of 2 October 2007 on the requirements for conducting measurements of levels of substances or energy in the environment by the administrator of a road, railway line, tram line, airport (Rozporządzenie Ministra Środowiska z dnia 2 października 2007 r. w sprawie wymagań w zakresie prowadzenia pomiarów poziomów w środowisku substancji lub energii przez zarządzającego drogą, linią kolejową, linią tramwajową, lotniskiem, portem), port, ISAP, 2007, 192(1392). https://isap.sejm.gov.pl/isap.... (accessed on 23.08.2022).
 
24.
Profillidis V., Botzoris G., Galanis A.: Traffic Noise Reduction and Sustainable Transportation: A Case Survey in the Cities of Athens and Thessaloniki, Greece. Advances in Intelligent Systems and Computing. 2019, 879, 402–409, DOI: 10.1007/978-3-030-02305-8_49.
 
25.
Sahu A.K., Nayak S.K., Mohanty C.R., Pradhan P.K.: Traffic Noise and its Impact on Wellness of the Residents in Sambalpur City - a Critical Analysis. Archives of acoustics. 2021, 46(2), 353–363, DOI: 10.24425/aoa.2021.136588.
 
26.
SEJM: Environmental Protection Law, ISAP, 2001, 62(627). https://isap.sejm.gov.pl/isap.... (accessed on 15.08.2022).
 
27.
Strekalov V.A., Shaimuhametov R.R.: Noise mapping inside a car. IOP Conference Series: Materials Science and Engineering. 2017, 240(1), 012066, DOI: 10.1088/1757-899X/240/1/012066.
 
Deklaracja dostępności
 
eISSN:2084-476X
Journals System - logo
Scroll to top