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Języki publikacji
Abstrakty
The purpose of the article is to present the integrated sustainable freight transport system dedicated for city clusters. The presented concept and calculation model is the result of a broader study on the effectiveness of production and transport systems in urban areas. The integrated sustainable freight transport system described in this paper serves multi-floor manufacturing clusters and therefore meets two efficiency requirements: technological integration and process sustainability. The integration of in-house transport system servicing multi-floor manufacturing building and supply chain deliveries to/from logistic node is based on efficient use of Intelligent Reconfigurable Trolleys (IRTs). The calculation model of integrated freight transport system allows for the quantitative matching of key elements of the transport system to the multi-floor manufacturing cluster needs. Properly selected and functionally integrated elements of proposed transport system allows to minimize losses and reduce the negative impact of transport on the environment.
Słowa kluczowe
Wydawca
Rocznik
Tom
Strony
151--160
Opis fizyczny
Bibliogr. 17 poz., fig.
Twórcy
autor
autor
- Maritime University of Szczecin, Poland
Bibliografia
- 1. Anschutz, J., IJgosse, J. and Scheinberg, A. (2004). Putting Integrated Sustainable Waste Management into Practice Using the ISWM Assessment Methodology: ISWM Methodology as Applied in the UWEP Plus Programme (2001-2003), WASTE: Gouda, The Netherlands.
- 2. Azapagic, A. and Perdan, S. (2000). Indicators of sustainable development for industry: a general framework, Process Saf Environ Prot, 78(4), pp. 243-261.
- 3. Christopher, M. (2011). Logistics & Supply Chain Management: creating value-adding networks, Pearson Education Limited, pp. 9-10.
- 4. Dzhuguryan T. and Jóźwiak Z. (2016). Infrastructure for Multi-Floor Virtual Enterprises System, Systemy wspomagania w inżynierii produkcji, P.A. Nowa S.A. Gliwice, 3(15), pp. 70-78.
- 5. Dzhuguryan, T., Jóźwiak, Z., Deja, A. and Semenova, A. (2018a). Infrastructure and Functions of a City Logistics Node for Multi-Floor Manufacturing Cluster, 8th International Scientific Conference CMDTUR 2018, Žilina, Slovakia, pp. 196-201.
- 6. Dzhuguryan, T., Wiśnicki, B. and Jóźwiak, Z. (2018b). Modular Loading Units for Facilitating Multi-Floor Manufacturing and City Logistics, Scientific Journals of the Maritime University of Szczecin, 55(127), pp. 73-78.
- 7. Dzhuguryan, T., Wiśnicki, B. and Dudek, T. (2018c). Concept of Intelligent Reconfigurable Trolleys for City Multi-Floor Manufacturing and Logistics System, 8th Carpathian Logistics Congress, Prague, Czech Republic.
- 8. Fujita, M. and Thisse, J.-F. (2002). Economics of Agglomeration: Cities, Industrial Localization, and Globalization, Cambridge, Massachusetts: Cambridge University Press.
- 9. Khorram Niaki, M. and Nonino, F. (2017). Additive manufacturing management: a review and future research agenda. International Journal of Production Research, 55(5), pp. 1419-1439.
- 10. Kluczek, A. (2016). Application of Multi-criteria Approach for Sustainability Assessment of Manufacturing Processes. Management and Production Engineering Review, 7(3), pp. 62-78.
- 11. Sala, S., Ciuffo, B. and Nijkamp, P. (2015). A systemic framework for sustainability assessment. Ecological Economics, 119, pp. 314-325.
- 12. Sarkis, J. and Zhu, Q. (2018). Environmental sustainability and production: taking the road less travelled, International Journal of Production Research, 56:1-2, pp. 743-759.
- 13. Sikdar, S.K. (2003). Sustainable development and sustainability metrics, AIChE J 49(8),1928-1932.
- 14. Sodkomkham, T. and Chutima, P. (2016). Lean Six Sigma Application in Rear Combination Automotive Lighting Process. IOP Conference Series: Materials Science and Engineering, 131(1).
- 15. Spath D. et al. (2017). Entwicklungen in der Unternehmensorganisation, Springer, Berlin.
- 16. Westkämper E. (2014). Towards the Re-Industrialization of Europe. A Concept for Manufacturing for 2030, Berlin: Springer, Germany.
- 17. Wiśnicki, B. and Dzhuguryan, T. (2018). Flexible Logistic Processes with the Use of Modular Loading Units, Technologia i automatyzacja montażu, 2, pp. 16-20.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
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