Browse > Article
http://dx.doi.org/10.20909/kopast.2016.22.3.107

Consideration on the Cost of Reusable and Expendable Shipping Container Systems: A Review  

Kim, Jongkyoung (Korea Conformity Laboratories)
Twede, Diana (Michigan State University)
Closs, David (Michigan State University)
Publication Information
KOREAN JOURNAL OF PACKAGING SCIENCE & TECHNOLOGY / v.22, no.3, 2016 , pp. 107-117 More about this Journal
Abstract
In order to reduce packaging and logistics costs for any business, it is important to identify opportunities for improvement throughout an entire logistics system including measurement of the performance and cost of packaging. Although the importance of packaging in a supply chain has been recognized by many scholars and experts, the total cost and value of packaging have not been successfully estimated. This paper reviews the recent researches and articles that tried to quantify the value of packaging focusing on the business decision between reusable and expendable shipping container systems. Three key factors such as cost, ownership, and standardization are identified and discussed in terms of impact on supply chain costs and performances. It is important to understand that the decision of a package system can change a logistics activities and even entire logistical system. Hence, the total cost and value of transport packaging should be calculated with understanding of interactions with logistical activities throughout supply chain. Identifying the opportunities and constraints of packaging changes on total logistics cost and activities must be carefully examined before implementation of a packaging system.
Keywords
Reusable packaging; Expendable packaging; Shipping container; Packaging cost; Supply chain;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Accorsia, R., Cascini, A., Susan, C., Manzini, R., and Cristina, M. 2014. Economic and environmental assessment of reusable plastic containers: A food catering supply chain case study. International Journal of Production Economics, 152: 88-101.   DOI
2 Kim, J., Lee, M., and Lee, Y. 2009. Studies on the National Standard Packaging Modules to improve Dimensional Integrity on the International Distribution Environment. Korea Journal of Packaging Science and Technology, 15: 7-16.
3 Pereira, J. 2008. The modular system for fruit and vegetable packaging. Papel. 69: 26.
4 McKerrow, D. 1996. What makes reusable packaging systems work. Logistics Information Management, 9: 39-42.
5 Hofmann, E. 2009. Inventory financing in supply chains: A logistics service provider-approach. International Journal of Physical Distribution & Logistics Management, 39: 716-740.   DOI
6 Automotive Logistics. 2010. When will packaging be king: 20-24.
7 Euro Pool System. 2010. Reusable packaging profitable for Eroski. Retrieved 4 25, 2011, from Euro Pool System: Bowersox, D., Closs, D., and Cooper, M. B. 2012. Supply Chain Logistics Management (2 ed.). New York, NY.: McGraw-Hill.
8 Kearney A.T. 1999. The ECR Europe Efficient Unit Loads project. ECR Europe.
9 Peres, P. S. 2008. Cartonboard packaging for horticultural products. Papel. 69: 25.
10 Automotive Industry Action Group. (2010). Intercontinental pallt Standard. Automotive Industry Action Group.
11 Kim, T., Glock, C. H., and Kwon, Y. 2014. A closed-loop supply chain for deteriorating products under stochastic container returntimes. Omega, 43: 30-40.   DOI
12 Clarke, J. 2003. ISTA. Retrieved 5 8, 2011, from ISTA: http://www.ista.org/forms/Pallets_101-Clarke_2004.pdf
13 International Organization of Standardization 2012. ISO 3394, Packaging - Complete, filled transport packages and unit loads - Dimensions of rigid rectangular packages
14 Reusable Packaging Association. 2010. Retrieved from http://reusables.org/library/calculators
15 Hanson, J. M. 2004. Core values and environmental management: A Strong Inference Approach. Greener Management International, 46: 29-40.
16 Twede, D. 2004. Supply chain issues in reusable packaging. Journal of Marketing Channels, 12: 8-26.
17 Rosenau, W., Twede, D., Mazzeo, M. A., and Singh, S. P. 1996. Returnable/reusable logistical packaging: A capital budgeting investment decision framework. Journal of Business Logistics, 17: 139-164.
18 Honaker, T. 2000. No metrics equals no management with returnable packaging. Retrieved from http://www.mhia.org/industrygroups/rpcpa/technicalpapers
19 Holmes, D. 1999. Economic and environmental benefits of reusable transport packaging: Case studies and implementation guidelines. Monash Centre for Environmental Management. Department of Geography and Environmental Science, Clayton Vic.
20 Palsson, H., and Finnsgard, C. W. 2013. Selection of packaging systems in supply chains from a sustainability perspective- the case of Volvo. Packaging Technology and Science, in press.
21 Security Packaging/SCM. 2010. Retrieved from Security Packaging/ SCM: http://www.securitypackaging.com/cost.php
22 Twede, D. 2009. Economics of Packaging. In K. L. Yam, The Wiley Encyclopedia of Packaging Technology, pp. 383-389.
23 Azzi, A., Battini, D., Persona, A., and Sgarbossa, F. 2012. Packaging Design: General Framework and Research Agenda. Packaging Technology and Science, 25: 435-456.   DOI
24 Atamer, B., Bakal, I. S., and Bayindir, Z. P. 2013. Optimal pricing and production decisions in utilizing reusable containers. International Journal of Production Economics, 143: 222-232.   DOI
25 Maleki, R. A. 2011. Managing Returnable Containers Logistics - A Case Study Part II - Improving Visibility through Using Automatic Identification Technologies. International Journal of Engineering Business Management, 3: 45-54.
26 Mollenkopf, D., Closs, D., Twede, D., Lee, S., and Burgess, G. 2005. Assessing the viability of reusable packaging: a relative cost approach. Journal of Business Logistics, 26: 169-197.   DOI
27 Dubiel, M. 1996. Costing Structures of Reusable Packaging Systems. Packaging Technology and Science, 9: 237-254.   DOI
28 Lieb, K. J. and Lieb, R. C. 2010. Environmental sustainability in the third-party logistics (3PL) industry. International Journal of Physical Distribution & Logistics Management, 40: 524-533.   DOI
29 NEFAB USA. 2010. Cost Savings on Packaging. (NEFAB) Retrieved 2010, from http://www.nefab.us/Cost_Savings_on_Packaging.aspx
30 John Henry Packaging group. 2010. Retrieved from JH Packaging group: http://www.jhpackaging.com/index.asp?action=busneeds_tcr
31 Nunes, B., and Bennett, D. 2010. Green operations initiatives in the automotive industry. Benchmarking: An International Journal, 17: 396-420.   DOI
32 Jahre, M. and Hatteland, C. J. 2004. Packages and physical distribution - Implications for integration and standardisation. International Journal of Physical Distribution & Logistics Management, 34: 123-139.   DOI
33 Kroon, G., and Vrijens, L. 1995. Returnable containers: an example of reverse logistics. International Journal of Physical Distribution & Logistics Management, 25: 56-68.   DOI
34 Modern Material Handling. 2006. Industrial packaging brings it all together: new solutions to handling unit loads of consumer goods. Modern Material Handling, 61: 64-65.