631.GREEN LOGISTICS AND CLEAN ENERGY IMPLEMENTATION– STRATEGIES AND METHODS
ДОИ:
https://doi.org/10.55302/MESJ20381631067vКлучни зборови:
green logistics, clean energy, optimization, eco-friendlyАпстракт
Logistics is no longer just a word for organization and optimization. What is new is, on the one hand, cost, smart technology and, on the other hand, minimizing and reducing waste, gases, vibrations and investment in eco-friendly solutions. As a result of the pollution, everything that is connected with ecology and efficiency mean not only a reduction of CO2 emissions, but also recycling and cost savings. Accordingly, the basic methods and principles of green logistics and clean energy and their relationship to logistics offered optimizing the cost for long term in combination with eco-friendly solutions. Related to the idea of using green logistics and clean energy, this paper discusses strategies, methods of implementation and an analysis of the various options.Референци
Pulevska Ivanovska, L.: Logistics/Supply Chain Management, ”Ss. Cyril and Methodius” University in Skopje, Faculty of Economics, Skopje, 2009.
McKinnon, A., Cullinane, S., Browne, M., Whiteing, A.: Green logistics, Improving the environmental sustainability of logistics, Journal of Transport Geography, Vol. 20, Issue. 1, pp. 89–90 (2012). ISBN 978 0 7494 5678 8
Richards, G., Riding, C.: Warehouse Management: A Complete Guide to Improving Efficiency and Minimizing Costs in the Modern Warehouse, Second edition, Kogan, (June 28, 2014), London, ISBN-13: 978-0749469344.
Bhattacharjee, K.: Green supply chain management challenges and opportunities, Asian Journal of Technology & Management Research, Vol. 5, Issue, 1, pp. 14–19 (Jan–Jun, 2015).
Bouhlal, A.: Green logistics, 9th International Conference on Traffic Science ICTS 2005, Portorož, Slovenia, November 2005.
Arvis, J.-F., Ojala, L., Wiederer, Ch.: Connecting to Compete 2018 Trade Logistics in the Global Economy – the 2018 Edition of the Logistics Performance Index (LPI), The World Bank, Turku School of Economics, University of Turku, 2018, DOI: 10.1596/29971.
Global Energy Transformation: A Roadmap to 2050, International Renewable Energy Agency (IRENA), 2018.
Goyal, P,, Kumar, A,: Mathematical Modeling of Air Pollutants: An Application to Indian Urban City, In Tech Open, 2011.
Celik, E,. Erdogan, M,. Gumus, A, T.: An extended fuzzy TOPSIS–GRA method based on different separation measures for green logistics service provider selection, Int. J. Environ. Sci. Technol. Vol. 13, pp. 1377–1392 (2016).
Tzu-Liang, B., Tseng. Ituarte-Villarreal, Gabriela. C. Ho, Johnny. Huang, Chun-Che: Optimization of green logistics using genetic algorithm, Proceedings of the 2015 Industrial and Systems Engineering Research Conference, S. Cetinkaya and J. K. Ryan (eds.), pp. 3111–3120. 2015.
Tundys, B.. Wiśniewski, T.: The Selected method and tools for performance measurement in the green supply chain — Survey analysis in Poland, Sustainability, Vol. 10, No. 2, pp. 549 (2018).
Schwartz, L.. Wei, M.. Morrow, W.: Energy Analysis and Environmental Impacts Division Lawrence Berkeley National Laboratory, Electricity and Uses, Energy Efficiency, and Distributed Energy Resources Baseline, Berkeley LAB, 2017.