The article analyzes and evaluates costs, transport time and CO2 emissions by selected vans. The research was carried out on the example of three models of Iveco Daily vehicles powered by: diesel oil, electricity and compressed natural gas (CNG). The result of the research presented in the article is the determination of the operating costs of vehicles powered by various energy sources and the level of CO2 emissions. The comparative analysis was carried out on real data for the established transport task. Vehicles with engines powered by compressed natural gas are characterized by the highest savings in terms of transport costs. As the authors pointed out, this may be due to the fact that this type of engines, despite the low interest of buyers at the moment, may gain much more popularity in the future. On the other hand, in relation to vehicles with electric motors, the cost of transport is the highest, which means that this type of technology is ineffective in relation to long-distance transport.
Ahmed Z, Ahmad M, Rjoub H, Kalugina OA, Hussain N. Economic growth, renewable energy consumption, and eco-logical footprint: exploring the role of environmental regula-tions and democracy in sustainable development. Sustain Dev. 2022;30(4):595-605.
Al-Hanahi, B., Ahmad, I., Habibi, D., & Masoum, M. A. Charging infrastructure for commercial electric vehicles: Challenges and future works. IEEE Access, 2021;9; 121476-121492.
Andrych-Zalewska M, Chłopek Z, Merkisz J, Pielecha J. Analysis of the operation states of internal combustion engine in the Real Driving Emissions test. Archives of Transport. 2023;61(1)71-88.
Greene DL, Ogden JM, Lin Z. Challenges in the designing, planning and deployment of hydrogen refueling infrastructure for fuel cell electric vehicles. ETransportation. 2020;6:100086.
Hou R, Lei L, Jin K, Lin X, Xiao L. Introducing electric vehicles? Impact of network effect on profits and social wel-fare. Energy. 2022;243:123002.
Iodice P, Cardone M. Ethanol/gasoline blends as alternative fuel in last generation spark-ignition engines: a review on CO and HC engine out emissions. Energies.2021;14(13):4034.
Izdebski M, Jacyna M. An efficient hybrid algorithm for energy expenditure estimation for electric vehicles in urban service enterprises. Energies. 2021;14(7):2004.
Izdebski M, Jacyna-Gołda I, Nivette M, Szczepański E. Selection of a fleet of vehicles for tasks based on the statistical characteristics of their operational parameters. Eksploat Niezawodn. 2022;24(3).
Jacyna M, Szczepański E, Lewczuk K, Izdebski M, Jacyna-Gołda I, Kłodawski M et al. Noise pollution from transport. 2021.
Jacyna M, Wasiak M. Costs of road transport depending on the type of vehicles. Combustion Engines. 2015;162(3):85-90.
Jacyna M, Żochowska R, Sobota A, Wasiak M. Scenario analyses of exhaust emissions reduction through the intro-duction of electric vehicles into the city. Energies. 2021;14(7):2030.
Kałużny J, Waligorski M, Szymański GM, Merkisz J, Ró-żański J, Nowicki M et al. Reducing friction and engine vi-brations with trace amounts of carbon nanotubes in the lu-bricating oil. Tribol Int. 2020;151:106484.
Karagoz M, Uysal C, Agbulut U, Saridemir S. Energy, exer-gy, economic and sustainability assessments of a compression ignition diesel engine fueled with tire pyrolytic oil−diesel blends. J Clean Prod. 2020;264:121724.
Kluschke P, Gnann T, Plötz P, Wietschel M. Market diffusion of alternative fuels and powertrains in heavy-duty vehicles: A literature review. Energy Reports. 2019;5:1010-1024.
Kontses A, Triantafyllopoulos G, Ntziachristos L, Samaras Z. Particle number (PN) emissions from gasoline, diesel, LPG, CNG and hybrid-electric light-duty vehicles under real-world driving conditions. Atmos Environ. 2020;222:117126.
Kubik A, Turoń K, Folęga P, Chen F. CO2 emissions—evidence from internal combustion and electric engine vehi-cles from car-sharing systems. Energies. 2023;16(5):2185.
Liu Z, Song J, Kubal J, Susarla N, Knehr KW et al. Compar-ing total cost of ownership of battery electric vehicles and internal combustion engine vehicles. Energy Policy. 2021;158:112564.
Lv Z, Wu L, Yang Z, Yang L, Fang T, Mao H. Comparison on real-world driving emission characteristics of CNG, LNG and hybrid-CNG buses. Energy. 2023;262:125571.
Macioszek E, Sierpiński G. Charging stations for electric vehicles-current situation in Poland. Research and the Future of Telematics: 20th International Conference on Transport Systems Telematics, TST 2020, Kraków, Poland, October 27-30, 2020, Springer International Publishing. 2020.
Miconi F, Dimitri GM. A machine learning approach to analyse and predict the electric cars scenario: The Italian case. PloS one. 2023;18(1):e0279040.
Min D, Song Z, Chen H, Wang T, Zhang T. Genetic algorithm optimized neural network based fuel cell hybrid electric vehicle energy management strategy under start-stop condition. Appl Energ. 2022;306:118036.
Moosavi-Nezhad M, Salehi R, Aliniaeifard S, Winans KS, Nabavi-Pelesaraei A. An analysis of energy use and economic and environmental impacts in conventional tunnel and LED-equipped vertical systems in healing and acclimatization of grafted watermelon seedlings. J Clean Prod. 2022;361:132069.
Mutarraf MU, Guan Y, Xu L, Su CL, Vasquez JC, Guerrero JM. Electric cars, ships, and their charging infrastructure – a comprehensive review. Sustainable Energy Technologies and Assessments. 2022;52:102177.
Naderi A, Qasemian A, Shojaeefard MH, Samiezadeh S, Younesi M, Sohani A et al. A smart load-speed sensitive cooling map to have a high- performance thermal management system in an internal combustion engine. Energy. 2021;229:120667.
Neugebauer M, Żebrowski A, Esmer O. Cumulative emis-sions of CO2 for electric and combustion cars: a case study on specific models. Energies. 2022;15(7):2703.
ORLEN | Nasze ładowarki.
Patterson R. Compendium of accounting in Polish & English. Warsaw 2015.
Pyza D, Jacyna-Gołda I, Gołda P, Gołębiowski P. Alternative fuels and their impact on reducing pollution of the natural environment. Rocznik Ochrona Środowiska. 2018;20.
Rozporządzenie Ministra Rodziny i Polityki Społecznej z dnia 25 października 2022 r. zmieniające rozporządzenie w sprawie należności przysługujących pracownikowi zatrudnionemu w państwowej lub samorządowej jednostce sfery budżetowej z tytułu podróży służbowej (Regulation of the Minister of Family and Social Policy of October 25, 2022 amending the regulation on the amounts due to an employee employed in a state or local government budgetary unit for a business trip).
Shafique M, Azam A, Rafiq M, Luo X. Life cycle assessment of electric vehicles and internal combustion engine vehicles: a case study of Hong Kong. Res Transp Econ. 2022;91:101112.
Tang B, Xu Y, Wang M. Life cycle assessment of battery electric and internal combustion engine vehicles considering the impact of electricity generation mix: a case study in China. Atmosphere. 2022;13(2):252.
Trivedi S, Prasad R, Mishra A, Kalam A, Yadav P. Current scenario of CNG vehicular pollution and their possible abatement technologies: an overview. Environ Sci Pollut R. 2020;27:39977-40000.
Ustawa o podatku dochodowych od osób prawnych (Corpo-rate Income Tax Act) z dnia 15 lutego 1992 (Dz. U. z 2023 r. poz. 185, 326, 412).
Ustawa o rachunkowości (Accounting Act) z dnia 29 września 1994 (Dz.U. z 2023 r. poz. 120, t.j.).
Ustawa Prawo ochrony środowiska (Environmental Protec-tion Act) z dnia 27 kwietnia 2001 (Dz.U. z 2023 r. poz. 877 z późn. zm.).
Warguła Ł, Kukla M, Lijewski P, Dobrzyński M, Markiewicz F. Impact of compressed natural gas (CNG) fuel systems in small engine woodchippers on exhaust emissions and fuel consumption. Energies. 2020;13(24):6709.
Wei S, Sun L, Wu L, Yu Z, Zhang Z. Study of combustion characteristics of diesel, kerosene (RP-3) and kerosene-ethanol blends in a compression ignition engine. Fuel. 2022;317:123468.
Yaman H, Yesilyurt MK, Uslu S. Simultaneous optimization of multiple engine parameters of a 1-heptanol/gasoline fuel blends operated a port-fuel injection spark-ignition engine using response surface methodology approach. Energy. 2022;238:122019.
Yang Z, Wang B, Jiao K. Life cycle assessment of fuel cell, electric and internal combustion engine vehicles under dif-ferent fuel scenarios and driving mileages in China. Energy. 2020;198:117365.
Zhu L, Zhong X, Wang H, Qiu X, Wu S, Mao D. An objec-tive and subjective study on global active control of engine noise in a car. J Vib Control. 2023;10775463231174730.
Zimakowska-Laskowska M, Laskowski P. Emission from internal combustion engines and battery electric vehicles: case study for Poland. Atmosphere. 2022;13(3):401.
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