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Model of operational planning of freight transportation by tram as part of a green logistics system

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The introduction of environmentally friendly technologies is becoming increasingly necessary to combat global warming and air pollution in cities. The concept of ecologistics is seen as an effective approach to the management of materials and related flows in order to reduce environmental and economic damage to the environment. The sustainable development of green supply chains is based on the use of environmentally friendly types of vehicles, reduction of energy and other resources consumption, optimization of transport and technological processes in delivery systems. As part of the development of green supply chain, it is proposed to transport goods by freight trams, which eliminates the need for heavy trucks in the city, improves traffic conditions and reduces the environmental impact of transport. The research was conducted for the city of Poznan. The distribution system of the city of Poznan operates in conditions of stochastic demand for deliveries from clients and the risk of lack of sufficient supplies in distribution centers. To take into account the specificity of the distribution system of cargo delivery in conditions of uncertainty and risk, a simulation model of the organization of the material flows within the transport system of the city of Poznan has been proposed. The result of simulation is the optimal assignment of clients to the distribution centers, as well as the value of total mileage with the load, which is a random variable. It is assumed that the random variable is distributed according to the normal distribution law. The results were calculated and compared for two variants, i.e. for constant demand and sufficient quantity of cargo in distribution centers, and for variable demand and uncertainty conditions, e.g. insufficient cargo quantity in distribution centers. The purpose of the paper is to develop a simulation model for planning supplies of small consignments of goods by trams implementing green logistics concept with variable demand for transportation. After a short introduction of the problem, the literature review related to the concept of green logistics and requirements of transport and distribution system are presented in section 2. In section 3, the research problem and research methodology are described. Section 4 provides the results of assignment of clients to distribution centers. The paper ends with concluding remarks.
Rocznik
Strony
113--122
Opis fizyczny
Bibliogr. 35 poz., fot., rys., tab., wykr.
Twórcy
  • Poznan University of Technology, Institute of Transport, Poznan, Poland
  • Lviv Polytechnic National University, Department of Transport Technologies, Lviv, Ukraine
  • Poznan University of Technology, Institute of Transport, Poznan, Poland
  • Poznan University of Technology, Institute of Transport, Poznan, Poland
  • Vytautas Magnus University, Faculty of Informatics, Kaunas, Lithuania
Bibliografia
  • [1] Aktas ,E., Bloemhof, J.M., Fransoo, J.C., Gunther, H.O., Jammernegg, W. (2018). Green logistics solutions, Flexible Services And Manufacturing Journal, 30(3), 363-365. DOI: 10.1007/s10696-017-9301-y.
  • [2] Alekseev, S. (2018). Prospects for the implementation and use of innovative intelligent technologies in modern transport systems. International Journal of Open Information Technologies, 6 (6), 38-43. (in Russian).
  • [3] Andrzejczyk, P., Rajczakowska, E. (2020). Ecologistics as an integral element of the sustainable development of farms in Poland. Economics and Organization of Logistics, 5 (2), 27-42. DOI: 10.22630/EIOL.2020.5.2.11.
  • [4] Baird Maritime (2020) Arriva Danmark goes all-electric with Damen waterbus quintet, https://www.bairdmaritime.com/work-boat-world/passenger-vessel-world/ferries/vessel-review-arriva-danmark-goes-all-electric-with-damen-waterbus-quintet/.
  • [5] Beamon, B.M. (1999). Designing the green supply chain. Logistics Information Management, 12, 332-342.
  • [6] Behiri, W., Belmokhtar-Berraf, S., Chu, C. (2018). Urban freight transport using passenger rail network: Scientific issues and quantitative analysis. Transportation Research Part E: Logistics and Transportation Review, 115, 227-245. DOI: 10.1016/j.tre.2018.05.002.
  • [7] Bosov, A., Khalipova, N. (2017). Formation of separate optimization models for the analysis of transportation-logistics systems. Eastern-European Journal of Enterprise Technologies, 3 (87), 11-20. DOI: 10.15587/1729-4061.2017.103220.
  • [8] Bowersox, D.J., Closs D.J. (1996). Logistical management: the integrated supply chain process. New York: McGraw-Hill Companies.
  • [9] Chukurna, O., Pylchenko, A., Dobrovolskyi, V. (2019). Ecological logistics: problems of formations of green supply chain. Zeszyty Naukowe Wyższej Szkoły Technicznej w Katowicach, 11, 103-118.
  • [10] De Langhe, K., Meersman, H., Sys, C., Van der Voorde, E., Vanelslander, T. (2019). How to make urban freight transport by tram successful? Journal of Shipping and Trade, 4, article nr 13. DOI: 10.1186/s41072-019-0055-4.
  • [11] Epicoco, N., Falagario, M. (2022). Decision support tools for developing sustainable transportation systems in the EU: A review of research needs, barriers, and trends. Research in Transportation Business & Management, 43, 100819. DOI: 10.1016/j.rtbm.2022.100819.
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  • [13] Hurzhiy, N.M., Belikova, M.Yu. (2016). The implementation of ecologistics in the domestic transport system. Scientific Bulletin of the Kherson State University, 17(1), 96-99. http://www.ej.kherson.ua/journal/economic_17/1/27.pdf (in Ukrainian).
  • [14] Husaková, N. (2014). A New Approach to EcoLogistics. Applied Mechanics and Materials, 708, 99-104. DOI: 10.4028/www.scientific.net/amm.708.99.
  • [15] Jacyna, M., Semenov, I.N., Trojanowski, P. (2015). The research directions of increase effectiveness of the functioning of the RSA with regard to specialized transport. Archives of Transport, 35(3), 27-39. DOI: 10.5604/08669546.1185181.
  • [16] Jacyna, M., Wasiak, M., Lewczuk, K., Chamier-Gliszczyński, N., Dąbrowski, T. (2018). Decision problems in developing proecological transport system. Rocznik Ochrona Środowiska, 20(2), 1007-1025.
  • [17] Johnson, J.C., Wood, D.F., Wardlow, D.L., Murphy, P.R.Jr. (1999). Contemporary Logistics. (7th ed.). Prentice Hall.
  • [18] Karpova, N., Pilipovich, E. (2016). Ecological logistics as the basis of a company's sustainable development strategy. Eurasian Union of Scientists, 2-3 (23), 79-81. https://cyberleninka.ru/article/n/ekologicheskaya-logistika-kak-osnova-strategii-ustoychivogo-razvitiya-kompanii (in Russian).
  • [19] Kicinski, M., Bienczak M., Fierek, S., Merkisz-Guranowska, A., Zmuda-Trzebiatowski, P. (2019b). A multi-criteria decision making approach for the evaluation of roads and streets system in Gniezno. Proceedings of ICCPT 2019, 22-31. https://iccpt.tntu.edu.ua/wp-content/uploads/2019/05/Proceedings_ICCPT2019.pdf.
  • [20] Kiciński, M., Witort, P., Merkisz-Guranowska, A. (2019a). Multiple criteria optimization for supply chains – Analysis of case study. In: Sierpiński, G. (eds) Integration as Solution for Advanced Smart Urban Transport Systems. TSTP 2018. Advances in Intelligent Systems and Computing, vol. 844. Springer, Cham. DOI: 10.1007/978-3-319-99477-2_14.
  • [21] Korniyko, Ya., Valiavskaya, N. (2019). The conceptual apparatus and stages of ecological development. Economy and State, 1, 43-46. DOI: 10.32702/2306-6806.2019.1.43 (in Ukrainian).
  • [22] McKinnon, A., Browne, M., Whiteing, A. (ed). (2013). Green Logistics: Improving the Environmental Sustainability of Logistics. London: Kogan Page. ISBN978-0-7494-6625-1.
  • [23] Muzylyov, D., Shramenko, N., Shramenko V. (2020). Integrated business-criterion to choose a rational supply chain for perishable agricultural goods at automobile transportations. International Journal of Business Performance Management, 21(1/2), 166-183. DOI:10.1504/IJBPM.2020.106116.
  • [24] Pietrzak, K., Pietrzak, O., Montwiłł, A. (2021). Effects of Incorporating Rail Transport into a Zero-Emission Urban Deliveries System: Application of Light Freight Railway (LFR) Electric Trains. Energies, 14, 6809. DOI: 10.3390/en14206809.
  • [25] Pietrzak, O., Pietrzak, K. (2021). Cargo tram in freight handling in urban areas in Poland. Sustainable Cities and Society, 70, 102902. DOI: 10.1016/j.scs.2021.102902.
  • [26] Ping, L., (2009). Strategy of Green Logistics and Sustainable Development. Proceedings of 2nd International Conference on Information Management, Innovation Management and Industrial Engineering, vol. 1, 339-342.
  • [27] Prokudin, G., Chupaylenko, A., Khobotnia, T., Remekh, I., Lyamzin, A., Kovalenko, М. (2022). Optimizing unbalanced freight deliver-ies in transportation networks. Eastern-European Journal of Enterprise Technologies, 2/3(116), 22–32. DOI: 10.15587/1729-4061.2022.253791.
  • [28] Rakhmangulov, A., Osintsev, N., Muravev, D., Sladkowski, A. (2017). An approach to achieving the sustainable development goals based on the system of green logistics methods and instruments. Transport Problems - Proceeding IX International Scientific Conference, 541-556.
  • [29] Savchenko, L., Grygorak, M., Polishchuk, V., Vovk, Y., Lyashuk, O., Vovk, I., Khudobei, R. (2022). Complex evaluation of the efficiency of urban consolidation centers at the micro level. Scientific Journal of Silesian University of Technology. Series Transport, 115, 135-159. DOI: 10.20858/sjsutst.2022.115.10.
  • [30] Semenov, I., Filina-Dawidowicz, L., Troja-nowski, P. (2019). Integrated approach to infor-mation analysis for planning the transport of sensitive cargo. Archives of Transport, 51(3), 65-76. DOI: 10.5604/01.3001.0013.6163.
  • [31] Shramenko, N., Muzylyov, D., Shramenko, V. (2020). Methodology of Costs Assessment for Customer Transportation Service of Small Perishable Cargoes, International Journal of Business Performance Management: Special Issue on: TBM 2019 Transformative Business Models – Disruptive Innovation in Finance, Logistics and Tourism, 21(1/2), 150-166.
  • [32] Shramenko, N., Shramenko, V. (2018). Mathematical model of the logistics chain for the delivery of bulk cargo by rail transport. Scientific Bulletin of National Mining University, 5 (167), 136-141. DOI: 10.29202/nvngu/2018-5/15.
  • [33] Shramenko, N., Shramenko, V. (2020). Simulation model of the process of delivering small consignments in international traffic through the terminal system. CEUR Workshop Proceedings, 2711, 443-454, http://ceur-ws.org/Vol-2711/paper34.pdf.
  • [34] Tarkowski, M. (2021). On the emergence of sociotechnical regimes of electric urban water transit systems. Energies, 14, 6111. DOI: 10.3390/en14196111.
  • [35] Vojtov, V., Kutiya, O., Berezhnaja, N., Karnaukh, M., Bilyaeva, O. (2019). Modeling of reliability of logistic systems of urban freight transportation taking into account street congestion. Eastern-European Journal of Enterprise Technologies, 4 (3), 15-21. DOI:10.15587/1729-4061.2019.175064.
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-5367933b-a898-4ad8-955f-a11b5dd0d126
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