EFFECTIVENESS OF DELIVERY TRANSPORTATION PROCESS WHILE USING ELECTRIC FREIGHT VEHICLE

  • M. Olkhova O.M. Beketov National University of Urban Economy in Kharkiv
  • D. Roslavtsev O.M. Beketov National University of Urban Economy in Kharkiv
  • А. Mykhalenko O.M. Beketov National University of Urban Economy in Kharkiv
Keywords: city logistics, electric freight vehicle, route, transportation

Abstract

The paper is devoted to determining the efficiency of the transport process for the delivery of confectionery products within the city. Comparing electric and diesel type of freight vehicles it was made conclusions about the advantages of choosing a mode of freight transport in Kharkiv.

Author Biographies

M. Olkhova, O.M. Beketov National University of Urban Economy in Kharkiv

Associate Professor of Transport Systems and Logistics, PhD

D. Roslavtsev, O.M. Beketov National University of Urban Economy in Kharkiv

Associate Professor of Transport Systems and Logistics, PhD

А. Mykhalenko, O.M. Beketov National University of Urban Economy in Kharkiv

Master student 

References

1. Elichi Taniguchi. The Future of City Logistics, Germany. (2012) Retrieved from: https://delivering-tomorrow.com/the-future-of-city-logistics
2. Ecorys, Fraunhofer, TCI, Prognos and AUEB-RC/TRANSLOG. (2015). Fact-finding studies in support of the development of an EU strategy for freight transport logistics Lot 1: Analysis of the EU logistics sector, 119-125.
3. Iwan, S., Kijewska, K, Kijewski, D. (2014). Possibilities of Applying Electrically Powered Vehicles in Urban Freight Transport.
4. Quak, H., Nesterova, N. (2014). Challenges and issues for implementation of electric freight vehicles in city logistics, in C. Macharis et al.(eds.), Sustainable Logistics, 6 Transport and Sustainability series by Emerald Books, 265–294.
5. Rizeta, С., Cruzb, С., Vromant, М. (2015). The Constraints of Vehicle Range and Congestion for the Use of Electric Vehicles for Urban Freight in France.
6. Lin, J., Zhou, W., Wolfson, O. (2015). Electric vehicle routing problem.
7. Quak, H., Nesterova, N., Rooijen, T. (2015). Possibilities and barriers for using electric-powered vehicles in city logistics practice.
8. Timothy, E., Barder. (2016). Zero emission city logistics: current practices in freight electro mobility and feasibility in the near future.
9. Faulin, J., Armas, J., Grasma, S. (n.d.) Sustainable transportation based on electric vehicle concepts: a brief overview. DOI: 10.1039/c001674
10. Foltyński, M. (2014). Electric fleets in urban logistics Procedia - Social and Behavioral Sciences 151, 48 – 59.
11. Lee, D.Y., Thomas, V.M., Brown, M.A. (2013). Electric Urban Delivery Trucks: Energy Use, Greenhouse Gas Emissions and Cost-Effectiveness, Environmental Science and Technology 47, 8022-8030, 3–15.
12. FREVUE, 2013. State of the art of the electric freight vehicles implementation in city logistics, Frevue Deliverable 1.3, 74.
13. Service. Retrieved from https://ant-logistics.com
14. Olkhova, M. V. (2009) Investigation of the time of service of the logistic system by a transport company. Municipal economy of cities, 90, 431–435.
15. Health Assessment Document for Diesel Engine Exhaust. (2002) National Center for Environmental Assessment, Office of Research and Development, US EPA. Washington D.C. EPA/600/8-90/057F, 9-11.
16. European Commission. (2001). A sustainable Europe for a better world: A European Union strategy for sustainable development, Bruxelles.
17. Bauner, D., Laestadius, S., Iida, N. (2009). Evolving technological systems for diesel engine emission control: balancing GHG and local emissions. Clean Technol Environ Policy 11: 339–365.
18. Nuzzolo, A., Coppola, P. Comi, A. (2013). Freight transport modeling: review and future challenges. International Journal of Transport Economics, XL (2), 151-181.
19. Nuzzolo, A., Crisalli, U., Comi, A. (2006). A modelling system for urban freight movements. In: Proceedings of 11th International Conference of Hong Kong Society for Transportation Studies – Sustainable Transportation, Hong Kong, China
20. Russo, F. and Comi, A. (2011). “Measures for sustainable freight transportation at urban scale: expected goals and tested results in Europe”. In: Journal of Urban Planning and Development 137 (2), DOI: 10.1061/(ASCE)UP.1943-5444.0000052, American Society of Civil Engineers (ASCE), 142-152.
Published
2020-07-01
How to Cite
OlkhovaM., RoslavtsevD., & MykhalenkoА. (2020). EFFECTIVENESS OF DELIVERY TRANSPORTATION PROCESS WHILE USING ELECTRIC FREIGHT VEHICLE. Municipal Economy of Cities, 3(156), 2-7. Retrieved from https://khg.kname.edu.ua/index.php/khg/article/view/5590