Formation of an integrated approach to research on the impact of transport and industrial processes on city-logistic systems

Serhiy Turpak; Olexiy Kuz’kin; Vjacheslav Trushevskyi; Olena Ostrohliad; Serhiy Turpak; Olexiy Kuz’kin; Vjacheslav Trushevskyi; Olena Ostrohliad

https://doi.org/10.31649/2413-4503-2023-18-2-168-174

Retrieved from Vol. 9, No.2, 2023

Received 14.09.2023, Revised 19.10.2023, Accepted 28.11.2023

Formation of an integrated approach to research on the impact of transport and industrial processes on city-logistic systems

Serhiy Turpak, Olexiy Kuz’kin, Vjacheslav Trushevskyi, Olena Ostrohliad

Taking into account the need for post-war reconstruction, one of the important issues is the formation of city-logistics systems taking into account the prospects for the development of urban industry, advanced achievements of science and technology, and the introduction of ecological modes of transport. , ensuring the European level of social and cultural development of the population. Meanwhile, enterprises of the metallurgical industry, as a rule, are city-forming in the settlements of industrial districts, they employ tens of thousands of workers. Taking into account the continuity of the main production processes in metallurgy, employees of such enterprises have a need for round-the-clock daily movement from their place of residence to the enterprise and back. At the same time, the schedules of the beginning and end of work shifts may be different at the same enterprise. Under such conditions, it is important to provide employees with timely and reliable transportation to the workplace. Accordingly, the city's transport system as a whole and the city's public transport in particular must be ready to ensure the growth of demand for passenger transportation for the sustainable development of the city's economy and social sphere. The article emphasizes the relevance of the tasks of optimizing the duration of signals both for relatively simple configurations of street network nodes and for complex street intersections with several sections of the road separated by a boulevard. The approach proposed by the authors to the management of the city-logistics system in the conditions of the cities of industrial regions will ensure the growth of demand for passenger transportation for the purpose of sustainable development of the economy and social sphere of cities. The need has been proven and practical solutions have been proposed for increasing the level of road safety, reducing traffic jams, and improving traffic modes within the cities of industrial areas, which allows to reduce the number of traffic accidents, ensures the fulfillment of urban logistics tasks, and also reduces the level of energy consumption of vehicles. expedient connection of various types of street transport, including individual ones, which will ensure rational planning of street space and increase the efficiency of the transport system of cities

city logistics, post-war reconstruction, metallurgy, motorization, city public transport, traffic light regulation

168-174

Turpak, S., Kuz’kin, O., Trushevskyi, V., & Ostrohliad, O. (2023). Formation of an integrated approach to research on the impact of transport and industrial processes on city-logistic systems . Journal of Mechanical Engineering and Transport, 9(2), 168-174. https://doi.org/10.31649/2413-4503-2023-18-2-168-174

References

[1] Gubenko, V.K., & Liamzyn, A.A. (2009). Urban logistics. Bulletin of the Azov State Technical University, 19, 271-275.

[2] Nedashkivskyi, V. (2022). What to expect from Ukrainian metallurgy: How the war hit the galuz. Retrieved from https://finance.ua/ua/saving/shcho-vidbuvaetsia-z-ukrainskou-metalurgieu.

[3] Official website of PJSC “Zaporizhstal”. (n.d.). Retrieved from https://www.zaporizhstal.com/pidpriyemstvo/.

[4] Turpak, S.M. (2015). Logistics systems for managing industrial transport of metallurgical enterprises. Kherson: Grіn D.S.

[5] Sereda, B.P., Kruglyak, I.V., & Kruglyak, D.O. (2021). Enhancing the operational stability and efficiency of industrial transport in the minds of the metallurgical industry. Kamyansk: DDTU.

[6] Turpak, S.M. (2014). Methods and models for controlling car flows at metallurgical enterprises. Kherson: Grіn D.S.

[7] Kuzkin, O.F. (2020). Theoretical foundations of the organization of transport processes in systems of public passenger transportation. (Doctoral dissertation, Kharkiv National Automobile and Highway University, Kharkiv, Ukraine).

[8] Rossolov, A., Kuzkin, O., & Rossolova, H. (2022). Emergency supplies purchase patterns during COVID-19 outbreak in the developing economy: Frequency and stockpiling drivers’ assessment. Journal of Humanitarian Logistics and Supply Chain Management, 12(1), 106-128.

[9] Turpak, S., Trushevskyi, V., Kuz’kin, O., Gritcai, S., & Taran, I. (2021). Improving the efficiency of vehicle operation and its environmental friendliness within the controlled crossings. Transport Problems, 16(3), 119-130. doi: 10.21307/tp-2021-046.

[10] Trushevskyi, V.E., Veremeienko, L.A., & Kalmykov, T.A. (2023). Value of the minimum green signal of the exit stop line at intersections with the boulevard. In Transport technologies and road safety: A collection of testimonies from the 4th all-Ukrainian scientific and practical conference (pp. 128-133). Zaporizhzhya: NU “Zaporizhzhya Polytechnics”.

[11] Khodan, V.I., Trushevskyi, V.E., & Tarasenko, A.V. (2022). Research on the effectiveness of the implementation of bicycle infrastructure in the cities of Ukraine. SWorldJournal, 1, 29-33.