Environmental and technical calculation of equipment of the contrailer terminal

The subject of the study is the technical and environmental calculation of key parameters for equipping a contrailer terminal. The relevance of the work is related to the practical need to improve the organization of working conditions for employees of the terminal and warehouse facility as a complex technosphere object, as well as to ensure the rational operation of loading and unloading equipment. These aspects are crucial for the subsequent design of the terminal in terms of the number of full-time jobs and the required number of purchased/leased equipment, which determines the importance of management decisions at the initial, pre-project stage. There are two blocks of calculation — environmental and technical, the results of which can later be used in the preparation of an estimate and financial plan for the design of a complex technosphere object-a cargo (contrailer) terminal.
Used analytical, design methods, theories of warehouse systems by O.B. Malikov, principles of technosphere safety.
The calculation of the number of loading and unloading machines of the Kalmar type of the TR618i series was performed, as well as the necessary number of luminaires with fluorescent lamps to create a given standard illumination, and their location in the working area of the terminal’s operating space was determined.
The calculation the number of loading and unloading machines required to ensure its smooth operation, and their quality indicators for the future volumes of cargo handling. The calculation of workplace illumination as a condition for ensuring technosphere safety and ergonomics requirements was also performed. It is noted that the performed environmental and technical calculations may be complicated by nested assessment and design methods aimed at assessing the current state of the terminal and the prospects for its further development/modernization.

1. Agunov A.V., Titova T.S., Kruchek V.A. On the construction of power quality control systems. Electrical Engineering. 2016; 5:14-19. (In Russian).

2. Titova T.S., Stepanova A.A. Environmental problems of transport construction. Technosphere and environmental safety in transport (TEBTRANS-2014). Abstracts of the IV International Scientific and Practical Conference. 2014; 80-81. (In Russian).

3. Svatovskaya L.B., Shershneva M.V., Baidarashvili M.M., Sychova A.M., Titova T.S., Yakimova N.I. et al. Foam concrete construction demolished waste. Proceedings of the International Conference on Sustainable Waste Management and Recycling. London, 2004; 199-203.

4. Malikov O.B. Container terminals: device, equipment, design, research. Saarbrücken, Germany, Lambert Academic Publishing, 2014; 257. (In Russian).

5. Pokrovskaya O.D. Evolutionary-functional approach to the development of transport hubs. Political transport systems: materials of the IX International Scientific and Technical Conference. 2017; 233-238. (In Russian).

6. Pokrovskaya O.D., Malykov O.B. Evolutionary functional approach to transport nodes classification. Proceedings of Petersburg Transport University. 2017; 14(3):406-419. (In Russian).

7. Malykov O.B., Pokrovskaya O.D. Rate-setting system analysis of railroad transport from a position of logistics and customer-oriented approach. Proceedings of Petersburg Transport University. 2017; 14(2):187-199. (In Russian).

8. Pokrovskaya O.D., Malikov O.B. Concerning the logistics hierarchy of railway facilities. Proceedings of Petersburg Transport University. 2016; 13(4):(49):521-531. (In Russian).

9. Samuylov V.M., Pokrovskaya O.D., Qiao Cong. Concept “New silk road” (China, Russia, Germany). Innotrans. 2017; 4:26-28. DOI: 10.20291/2311-164X-2017-4-26-28 (In Russian).

10. Pokrovskaya O.D., Titova T.S. Research vocabulary of terminalistics. Bulletin of Scientific Research Result. 2018; 2:29-43. (In Russian).

11. Dedyukhina N.V., Nazarova V.A. Management analysis of the railway transport business structures as a strategy implementation tool for the transport industry sustainable development. Bulletin of the Saint Petersburg State University of Economics. 2017; 5(107):63-71. (In Russian).

12. Zhuravleva N.A. Development of the market for railway transport services in the context of Russia’s economic security. Economic Sciences. 2015; 11(132):15-19. (In Russian).

13. Panova Yu.N., Korovyakovskiy E.K., Titova T.S. Ecological aspects of inland terminal implementation. Proceedings of Petersburg Transport University. 2011; 3(28):15-23. (In Russian).

14. Titova T.S., Pokrovskaya O.D. Interdisciplinary proposition of the theory of terminalistics. Proceedings of Petersburg Transport University. 2018; 15(2):248-260. (In Russian).

15. Novikova I.D., Ivanova E.M., Zabolotskaya K.A. Automation of calculation of technical and operational parameters of a railway cargo terminal. Transport technician: education and practice. 2020; 1(1-2):76-82. (In Russian).