Appropriate criteria for a transition from conventional to sustainable warehousing

Accorsi, R., Bortolini, M., Gamberi, M., Manzini, R. & Pilati, F. (2017). Multi-objective warehouse building design to optimize the cycle time, total cost, and carbon footprint. The International Journal of Advanced Manufacturing Technology, 92, 839-854. doi:10.1007/S00170-017-0157-910.1007/s00170-017-0157-9Search in Google Scholar

Agyabeng-Mensah, Y., Ahenkorah, E., Afum, E., Dacosta, E., & Tian, Z. (2020). Green warehousing, logistics optimization, social values and ethics and economic performance: the role of supply chain sustainability. The International Journal of Logistics Management, 31(3), 549-574. doi:10.1108/ijlm-10-2019-027510.1108/IJLM-10-2019-0275Search in Google Scholar

Ali, I. & Phan, H. M. (2021). Industry 4.0 Technologies and Sustainable Warehousing: A Systematic Literature Review. The International Journal of Logistics Management, 33(2), 644-662. doi:10.1108/ijlm-05-2021-027710.1108/IJLM-05-2021-0277Search in Google Scholar

Ali, P. J. M. & Faraj, R. H. (2014). Data normalization and standardization: a technical report. Machine Learning Technical Reports, 1(1), 1-6. doi:10.13140/RG.2.2.28948.04489Search in Google Scholar

Amjed, T. W., & Harrison, N. J. (2013). A Model for sustainable warehousing: from theory to best practices. In Proceedings of the International Decision Sciences Institute and Asia Pacific DSI Conference (pp. 1-28). Towson: Decision Sciences Institute.Search in Google Scholar

Anand, V., Lee, S., & Prabhu, V. V. (2014). Energy-aware models for warehousing operations. In: Grabot, B., Vallespir, B., Gomes, S., Bouras, A., Kiritsis, D. (eds), Advances in Production Management Systems. Innovative and Knowledge-Based Production Management in a Global-Local World. APMS 2014. IFIP Advances in Information and Communication Technology, vol. 439. Berlin, Heidelberg: Springer. doi:1ø.1007/978-3- 662-44736-9_4810.1007/978-3-662-44736-9_48Search in Google Scholar

Bartolini, M., Bottani, E., & Grosse, E. H. (2019). Green warehousing: Systematic literature review and bibliometric analysis. Journal of Cleaner Production, 226, 242-258. doi:10.1016/J.JCLEPRO.2019.04.05510.1016/j.jclepro.2019.04.055Search in Google Scholar

Boenzi, F., Digiesi, S., Facchini, F., Mossa, G., & Mummolo, G. (2016). Greening activities in warehouses: a model for identifying sustainable strategies in material handling. In B. Katalinic (Ed.), Proceedings of the 26th DAAAM International Symposium. Vienna: DAAAM International. doi: 10.2507/26th.daaam.proceedings.13810.2507/26th.daaam.proceedings.138Search in Google Scholar

Buntak, K., Kovačić, M., & Mutavdžija, M. (2019). Internet of things and smart warehouses as the future of logistics. Tehničkiglasnik, 13(3), 248-253. doi:10.31803/tg-2019021520043010.31803/tg-20190215200430Search in Google Scholar

Burinskiene, A., Lorenc, A., & Lerher, T. (2018). A simulation study for the sustainability and reduction of waste in warehouse logistics. International Journal of Simulation Modelling, 17(3), 485-497. doi:10.2507/IJSIMM17(3)44610.2507/IJSIMM17(3)446Search in Google Scholar

Carli, R., Digiesi, S., Dotoli, M., & Facchini, F. (2020). A control strategy for smart energy charging of warehouse material handling equipment. Procedia Manufacturing, 42, 503-510. doi:10.1016/j.promfg.2020.02.04110.1016/j.promfg.2020.02.041Search in Google Scholar

Dukić, G., Česnik, V., & Opetuk, T. (2010). Order-picking methods and technologies for greener warehousing. Strojarstvo: časopis za teoriju i praksu u strojarstvu, 52(1), 23-31.Search in Google Scholar

Freis, J., Vohlidka, P., & Günthner, W. A. (2016). Low-Carbon warehousing: Examining impacts of building and intra-logistics design options on energy demand and the CO2 emissions of logistics centers. Sustainability, 8(5), 448. doi:10.3390/SU805044810.3390/su8050448Search in Google Scholar

Füchtenhans, M., Glock, C. H., Grosse, E. H., & Zanoni, S. (2021). Using smart lighting systems to reduce energy costs in warehouses: A simulation study. International Journal of Logistics Research and Applications, 1-19. doi:10.1109/CoDIT.2019.882053910.1109/CoDIT.2019.8820539Search in Google Scholar

Gibberd, J. (2021). Green Building Technologies. In Research Anthology on Environmental and Societal Well-Being Considerations in Buildings and Architecture (pp. 1-24). Hershey: IGI Global. doi: 10.4018/978-1-7998-9032-4.ch00110.4018/978-1-7998-9032-4.ch001Search in Google Scholar

Grzybowska, K., Awasthi, A., & Sawhney, R. (Eds.). (2020). Sustainable Logistics and Production in Industry 4.0: New opportunities and challenges. Cham: Springer. doi:10.1007/978-3-030-33369-010.1007/978-3-030-33369-0Search in Google Scholar

Gülmez, Y. S. & Rad S. T. (2017). Green logistics for sustainability. International Journal of Management Economics & Business/UluslararasiYönetimIktisatveIsletmeDergisi, 13(3), 603-614. doi:10.17130/ijmeb.201733132710.17130/ijmeb.2017331327Search in Google Scholar

Iancu, I. E., & Moga, L. M. (2022). Life cycle analysis of warehouse-type constructions. In CLIMA 2022 conference. Delft: TU Delft OPEN. doi:10.34641/clima.2022.329Search in Google Scholar

Jayarathna, C. P., Agdas, D., & Dawes, L. (2022). Exploring sustainable logistics practices toward a circular economy: A value creation perspective. Business Strategy and the EnvironmentI 32(1), 704-720. doi:10.1002/bse.317010.1002/bse.3170Search in Google Scholar

Joshi, A., Kale, S., Chandel, S., & Pal, D. K. (2015). Likert scale: Explored and explained. British journal of applied science & technology, 7(4), 396-403. doi: 10.9734/BJAST/2015/1497510.9734/BJAST/2015/14975Search in Google Scholar

Kadam, S., Karvekar, A., & Kumbhar, V. (2017). Traditional & green supply chain management–A review. International Advanced Research Journal in Science, Engineering and Technology, 4(1), 38-39. doi: 10.17148/IaRjSET/NCDmEtE.2017.1110.17148/IARJSET/NCDMETE.2017.11Search in Google Scholar

Kamali, A. (2019). Smart warehouse vs. traditional warehouse. CiiT International Journal of Automation and Autonomous System, 11(1), p. 9-16. doi:10.36039/ciitaas/11/1/2019/180349.9-16Search in Google Scholar

Kuhlman, T., & Farrington, J. (2010). What is sustainability? Sustainability, 2(11), 3436-3448. doi:10.3390/SU211343610.3390/su2113436Search in Google Scholar

Lewczuk, K. & Kłodawski, M. (2020). Logistics information processing systems on the threshold of IoT. Scientific Journal of Silesian University of Technology. Series Transport. 107, 85-94. doi: 10.20858/sjsutst.2020.107.610.20858/sjsutst.2020.107.6Search in Google Scholar

Lewczuk, K., Kłodawski, M., &Gepner, P. (2021). Energy consumption in a distributional warehouse: A practical case study for different warehouse technologies. Energies, 14(9), 2709. doi:10.3390/en1409270910.3390/en14092709Search in Google Scholar

Malinowska, M., Rzeczycki, A., & Sowa, M. (2018). Roadmap to sustainable warehouse. SHS Web of Conferences, 57, p. 01028. doi:10.1051/SHSCONF/2018570102810.1051/shsconf/20185701028Search in Google Scholar

Modica, T., Perotti, s., & Melacini, M. (2021). Green Warehousing: Exploration of Organisational Variables Fostering the Adoption of Energy-Efficient Material Handling Equipment. Sustainability, 13(23), 13237. doi:lø.339ø/sul323l323710.3390/su132313237Search in Google Scholar

Mulder, s. (2013). Sustainable warehousing: an empirical research at Unilever on building options and collaboration models in sustainable warehousing (Master’s thesis). Enschede: University of Twente.Search in Google Scholar

Mumba, D. C. (2020). A comparison of automated warehouse with traditional warehouse management: a case study of DMNU in Zambia (Doctoral dissertation). Lusaka: Cavendish University Zambia.Search in Google Scholar

Petersen, B. (2022, June 20). Create a Sustainable Warehouse with Reusable Packaging. Accessed on 15. July 2022 https://www.sdcexec.com/warehousing/packaging/article/22288548/orbis-corporation-create-a-sustainable-warehouse-with-reusable- packagingSearch in Google Scholar

Pongrácz, E. (2007). The environmental impacts of packaging. In M. Kutz (ed.) Environmentally conscious materials and chemicals processingI (p. 237-278). Hoboken: Wiley. doi:10.1002/9780470168219.ch910.1002/9780470168219.ch9Search in Google Scholar

Richnák, P., & Gubová, K. (2021). Green and reverse logistics in conditions of sustainable development in enterprises in Slovakia. Sustainability, 13(2), 581. doi:10.3390/su1302058110.3390/su13020581Search in Google Scholar

Ries, J. M., Grosse, E. H., & Fichtinger, J. (2017). Environmental impact of warehousing: a scenario analysis for the United States. International Journal of Production Research, 55(21), 6485-6499. doi: 10.1080/00207543.2016.121134210.1080/00207543.2016.1211342Search in Google Scholar

Sammut-Bonnici, T. & Galea, D. (2015). SWOT analysis. In C. L. Cooper, J. McGee and T. Sammut-Bonnici (Eds.), Wiley Encyclopedia of Management. Chichester: Wiley. doi:10.1002/9781118785317.weom12010310.1002/9781118785317.weom120103Search in Google Scholar

Saroha, R. (2014). Green logistics & its significance in modern day systems. International Review of Applied Engineering Research, 4(1), 89-92.Search in Google Scholar

Storgärd, K. (2021). Green 3PL Warehousing-A case study of how Kuehne Nagel Sweden’s warehousing operations can become green. (Master’s thesis). Gothenburg: School of Business, Economics and Law.Search in Google Scholar

Wahab, S. N., Shakrein Safian, S. S., Othman, N., & Mohamad Azhar, N. A. (2021). Motivations To Implement Sustainable Warehouse Management: A Literature Review. International Journal of Accounting, Finance and Business (IJAFB), 6 (33), 109 - 117.Search in Google Scholar

Wahyuni, F. D., Najah, Z., & Santoso, M. I. (2022). Mapping of sustainable warehouse process in the agro-hub Banten using business process modelling notation. IOP Conference Series: Earth and Environmental Science 978(1), 012053. doi:10.1088/1755-1315/978/1/01205310.1088/1755-1315/978/1/012053Search in Google Scholar

Yang, L., Zhang, H., Shen, H., Huang, X., Zhou, X., Rong, G., & Shao, D. (2021). Quality assessment in systematic literature reviews: A software engineering perspective. Information and Software Technology, 130, 106397. doi: 10.1016/j.infsof.2020.10639710.1016/j.infsof.2020.106397Search in Google Scholar

Żuchowski, W. (2015). Division of environmentally sustainable solutions in warehouse management and example methods of their evaluation. LogForum, 11(2), 171-182. doi:10.17270/J.LOG.2015.2.510.17270/J.LOG.2015.2.5Search in Google Scholar