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Zarządzanie rynkiem nowoczesnych pojazdów elektrycznych
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This paper proves that the trend of development of modern transport in the world is to maximize the level of providing the personal use of electric vehicles. This mechanism would also partially solve the environmental problems of mankind. To implement this idea, some global automakers have announced the decision of the full transition of production to electric vehicles. At the same time, for effective functioning of the electric-vehicle market, adequate infrastructure needs to be created. There is a positive trend in the annual growth of the charging-station network in developed countries, that characterizes the charging-station market as dynamic and promising, but mostly chaotic and imbalanced at the regional level. The main hypothesis of the research is about the independence between the level of electric-vehicle market development and networks of charging stations. The object of the study is the Washington (USA) electric-vehicle market, as it is the market segment with the highest development characteristics. To test the hypothesis, the authors provided a multifactor analysis of the local electric-vehicle market and the existing charging infrastructure. A comprehensive analysis of the electric-vehicle market and the charging-station network in Washington (USA) was performed, and the market characteristics were defined accordingly: the degree of electric-vehicle spread in the regional localities; the level of charging-station-network coverage and concentration; the ratio of electric vehicles to charging stations. Authors identified the tendency of the state location to innovations connected with electric vehicles. Clusterization and recommendations according to the level of development of the electric-vehicle market aimed to balance and grow the total electric-vehicle market and connected infrastructure.
Artykuł udowadnia, że trendem rozwoju nowoczesnego transportu na świecie jest maksymalizacja poziomu zapewnienia osobistej użyteczności pojazdów elektrycznych. Mechanizm ten częściowo rozwiązałby również problemy środowiskowe ludzkości. Aby zrealizować ten pomysł, niektórzy światowi producenci samochodów ogłosili decyzję o całkowitym przejściu produkcji na pojazdy elektryczne. Ale dla efektywnego funkcjonowania rynku pojazdów elektrycznych konieczne jest stworzenie odpowiedniej infrastruktury. Istnieje pozytywna tendencja rocznego wzrostu sieci stacji ładowania w krajach rozwiniętych, która charakteryzuje rynek stacji ładowania jako dynamiczny i obiecujący, ale w większości chaotyczny i niezrównoważony na poziomie regionalnym. Główna hipoteza postawiona w badaniach dotyczy niezależności pomiędzy poziomem rozwoju rynku pojazdów elektrycznych a sieciami stacji ładowania. Przedmiotem badania jest waszyngtoński (USA) rynek pojazdów elektrycznych, ponieważ jest to segment rynku o najwyższych cechach rozwoju. W celu sprawdzenia hipotezy autorzy przeprowadzili wieloczynnikową analizę lokalnego rynku pojazdów elektrycznych oraz istniejącej infrastruktury ładowania. Przeprowadzono kompleksową analizę rynku pojazdów elektrycznych oraz sieci stacji ładowania w Waszyngtonie (USA) i odpowiednio określono cechy rynku: stopień rozproszenia pojazdów elektrycznych w regionach; poziom pokrycia i koncentracji sieci stacji ładowania; stosunek pojazdów elektrycznych do stacji ładowania. Autorzy zidentyfikowali trend na poziomie państwa związany z innowacjami dotyczącymi pojazdów elektrycznych. Dokonano klasteryzacji i opracowano rekomendacje dotyczące poziomu rozwoju rynku pojazdów elektrycznych, które ma na celu zrównoważenie i rozwój całego rynku pojazdów elektrycznych i połączonej infrastruktury.
Czasopismo
Rocznik
Tom
Strony
85--108
Opis fizyczny
Bibliogr. 28 poz., tab., rys., wykr.
Twórcy
autor
- Social Security Department, Cherkasy State Technological University, Ukraine
autor
- Department of Economics and Management, Cherkasy State Technological University, Ukraine
autor
- Department of Economics and Management, Cherkasy State Technological University, Ukraine
autor
- Management and Financial & Economic Security Department, Donetsk National Technical University, Ukraine
autor
- Department of Economics and Management, Cherkasy State Technological University, Ukraine
autor
- Department of Management of Non-Productive Sphere, Donetsk State University of Management, Ukraine
Bibliografia
- Arakawa, K. 2018. Development of Charging Infrastructure and Subsidies for Promoting Electric Vehicles. Theoretical Economics Letters 8, pp. 2006–2023, DOI: 10.4236/tel.2018.811131.
- Census Bureau USA data 2010. [Online] https://www2.census.govlibrarypublicationsdecennial2010cph-2cph-2-49.pdf [Accessed: 2021-02-01].
- Census Bureau USA data 2019 [Online] https://www2.census.govprograms-surveyspopestdatasets-2010-2019citiestotals [Accessed: 2021-02-01].
- Directive 2014/94/EU of the European Parliament and of the Council of 22 October 2014 on the deployment of alternative fuels infrastructure. [Online] https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=celex% 3A32014L0094 [Accessed: 2021-07-01].
- Efthymiou et al. 2017 – Efthymiou, D., Chrysostomou, K., Morfoulaki, M. et al. 2017. Electric vehicles charging infrastructure location: a genetic algorithm approach. European Transport Research Review. 9, 27, DOI: 10.1007/s12544-017-0239-7.
- European Alternative Fuels Observatory. [Online] https://www.eafo.eu/countries/ [Accessed: 2021-07-01].
- Ford official. News [Online] https://media.ford.com/content/fordmedia/feu/en/news/2021/02/17/ford-europe-goes-all-in-on-evs-on-road-to-sustainable-profitabil.html [Accessed: 2021-07-01].
- Goswami, R. and Tripathi, G.Ch. 2020. Augmentation of charging infrastructure for electric vehicles growth in India. International Journal of Electric and Hybrid Vehicles 12(1), pp. 44–58, DOI: 10.1504/IJEHV.2020.104264.
- Hall et al. 2020 – Hall, D., Cui, H. and Lutsey, N. 2020. Electric vehicle capitals: Cities aim for all-electric mobility. Retrieved from the International Council on Clean Transportation.
- Hall, D. and Lutsey, N. 2020. Electric Vehicle Charging Guide for Cities; Consulting Report. The International Council on Clean Transportation: Washington, DC, USA.
- Hardinghaus et al. 2020 – Hardinghaus, M., Löcher, M. and Anderson, J.E. 2020. Real-world insights on public charging demand and infrastructure use from electric vehicles. Environmental Research Letters 15(10). https://iopscience.iop.org/article/10.1088/1748-9326/aba716 [Accessed: 2022-02-01].
- Jaguar official. News [Online] https://media.jaguar.com/news/2021/02/jaguar-land-rover-reimagines-future-modern-luxury-design [Accessed: 2021-07-01].
- Mathieu et al. 2020 – Mathieu, L., Poliscanova, J., Calvo Ambel, C., Muzi, N. and Alexandridou, S. 2020. Recharge EU: how many charge points will Europe and its Member States need in the 2020s. Transport & Environment.
- Metais et al. 2022 – Metais, M.-O., Jouini, O., Perez, Y., Berrada, J. and Suomalainen, E. 2022. Too much or not enough? Planning electric vehicle charging infrastructure: a review of modeling options. Renewable and Sustainable Energy Reviews 153, DOI: 10.1016/j.rser.2021.111719.
- Nicholas et al. 2019 – Nicholas, M.A., Hall, D. and Lutsey, N. 2019. Quantifying the Electric Vehicle Charging Infrastructure Gap across US Markets. ICCT White Paper.
- Paoli, L. and Gül, T. 2022. Electric cars fend off supply challenges to more than double global sales. International Energy Agency. [Online] https://www.iea.org/commentaries/electric-cars-fend-off-supplychallenges-to-more-than-double-global-sales [Accessed: 2022-02-01].
- Petratos et al. 2012 – Petratos, A., Ting, A., Padmanabhan, S., Zhou, K., Hageman, D., Pisel, J.R. and Pyrcz, M.J. 2021. Optimal Placement of Public Electric Vehicle Charging Stations Using Deep Reinforcement Learning. Electrical Engineering and Systems Science. Systems and Control. [Online] https://arxiv.org/abs/2108.07772 [Accessed: 2022-02-01].
- Policies to promote electric vehicle deployment. Global EV Outlook 2021. International Energy Agency. [Online] https://www.iea.org/reports/global-ev-outlook-2021/policies-to-promote-electric-vehicle -deployment [Accessed: 2022-02-01].
- Scaling Up Electric Vehicle Charging Infrastructure. Lessons From China And The United States For The Indian Context. Report July 2020. Natural Resources Defense Council. [Online] https://www.nrdc.org/sites/default/files/charging-infrastructure-best-parctices-202007.pdf [Accessed: 2022-02-01].
- Science Hunter. [Online] https://www.sciencehunter.net/Services/Clustering#/visualization [Accessed: 2021-07-01].
- Scopus search database. [Online] https://www.scopus.com/search/form.uri?zone=TopNavBar&origin=searchbasic& display=basic#basic [Accessed: 2021-07-01].
- Shanti et al. 2020 – Shanti, P., Allen, A., Myers, L., Goldwasser, D., Meintz, A., Polly, B. and Frank, S. 2020. Integrating Electric Vehicle Charging Infrastructure into Commercial Buildings and Mixed-Use Communities: Design, Modeling, and Control Optimization Opportunities; Preprint. Golden, CO: National Renewable Energy Laboratory. NREL/CP-5500-77438. [Online] https://www.nrel.gov/docs/fy20osti/77438.pdf [Accessed: 2022-02-01].
- Slowik, P. and Lutsey, N. 2019. The surge of electric vehicles in United States cities. Retrieved from the International Council on Clean Transportation.
- Sotnyk et al. 2020 – Sotnyk, I., Hulak, D., Yakushev, O., Yakusheva, O., Prokopenko, O.V. and Yevdokymov, A. 2020. Development of the US electric car market: Macroeconomic determinants and forecasts. Polityka Energetyczna – Energy Policy Journal 23(3), pp. 147–164, DOI: 10.33223/epj/127921.
- Spöttle et al. 2018 – Spöttle, M., Jörling, K., Schimmel, M., Staats, M., Grizzel, L., Jerram, L., Drier, W., Gartner, J., Thomas, M., Ratcliff, C. et al. Research for TRAN Committee–Charging Infrastructure for Electric Road Vehicles, European Parliament. Brussels. 2018.
- U.S. Department of Energy. Alternative Fuels Data Center. [Online] https://afdc.energy.gov/fuels/electricity_locations.html#/find/nearest?fuel=ELEC [Accessed: 2021-02-01].
- Volkswagen official. News. [Online] https://www.volkswagen-newsroom.com/de/pressemitteilungen/id- 5-in-serie-volkswagen-schliesst-transformation-des-fahrzeugwerks-zwickau-zum-e-standort-erfolgreich-ab-7748 [Accessed: 2022-02-01].
- Washington State open data portal. [Online] https://data.wa.gov/Transportation/Electric-Vehicle-Population-Data/f6w7-q2d2 [Accessed: 2021-02-01].
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-6b08ab54-7ad2-43be-9332-d7cab9e9f8c1