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The Challenges of Implementing Sustainable Production for One-Way Bottled Drinking Water in Thailand

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Abstract:

The paper presents evidence-based evaluation of a sustainable production of one-way bottled drinking water in Thailand with emphasis on open-loop and close-loop processes. Two groups of producers were selected: four top brands and four house brands. In-depth interviews and plant surveys were conducted to explore the producers performances in four categories: corporate social responsibility (CSR), sustainable design, 3 Rs principle and life-cycle management (LCM). The interview and survey transcripts were combined, analyzed and categorized for two sustainable production measures: resource efficiency and pollution reduction. Three most prominent findings are that the top brands moderately perform the sustainable production while the house brands do less well, the resource efficiency measure is much more valued than the pollution reduction, and that the LCM is the most favored category, unlike the CSR. In conclusion, both brands are challenging for improving water efficiency and increasing plastics recyclability and the close-loop process shall be largely adopted among Thai bottled water producers.

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Periodical:

Advanced Materials Research (Volumes 807-809)

Pages:

2897-2910

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.807-809.2897

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Online since:

September 2013

Authors:

Taksina Chaiittipornwong, Pomthong Malakul, Dawan Wiwattnadej

Keywords:

3 R, Corporate Social Responsibility, Drinking Water Bottling System, Life Cycle Management, Sustainable Design, Sustainable Production

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© 2013 Trans Tech Publications Ltd. All Rights Reserved

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References

[1] M. Amano and B. Ness, B. PET Bottle System in Sweden and Japan. Masters' Thesis, International Program in Environmental Science, Lund University (2004).

Google Scholar

[2] Y. Takahashi. Sustainable PET Bottle Recycling System in Japan for Second Material Cycle. Graduate Program in Sustainability Science, Graduate School of Frontier Sciences, The University of Tokyo (11 August 2010).

Google Scholar

[3] Franklin Associates. Life Cycle Assessment, in: Sustainability Report 2010, Indorama Ventures Public Company Limited (2010), p.8. Information on http: /www. indoramaventures. com.

Google Scholar

[4] B. Lehmann, F. Vilaplana, E. Stromberg, W. Suliman and L.R. Cerrato. Comparative LCA on Plastic Packaging. 1N1800, Sweden (25 May 2005), p.8.

Google Scholar

[5] JG. Rodwan. Challenge Circumstances Persist: Future Growth Anticipated, U.S. and International Developments and Statistics. Bottled Water 2009 (April-May, 2010). Information on : http: /www. bottledwater. org/files/2009BWstats. pdf.

Google Scholar

[6] K. Janthalertlak, editor. Fight Flood. [VCD]. Thai PBS, Bangkok: Investigative News Program (28 October 2011).

Google Scholar

[7] N. Chaistapond. PRC Plast (Thailand) Company Limited. Interview (18 July 2012); Personal Communication.

Google Scholar

[8] M. Hauschild, J. Jeswiet and L. Alting. From Life Cycle Assessment to Sustainable Production: Status and Perspectives. CIRP Annals-Manufacturing Technology, Vol. 54 (2) (2005), pp.1-21.

DOI: 10.1016/s0007-8506(07)60017-1

Google Scholar

[9] Economic and Social Commission for Asia and the Pacific (ESCAP). The First National Seminar on Green Growth Policy Tools for Low Carbon Development in Thailand [VCD], Bangkok. (23-24 February 2011).

Google Scholar

[10] Ibid.

Google Scholar

[11] J.A. Elliott. An Introduction to Sustainable Development. Third edition. London and New York: Taylor & Francis Group (2006).

Google Scholar

[12] N.J. Blackburn and G.M. Peters. Atmospheric Water Generation: An Environmentally Friendly Alternative to Bottled Water? Centre for Water and Wastewater Technology, School of Civil and Environmental Engineering. Sydney: Australian Life Cycle Assessment Society. (2009).

Google Scholar

[13] B. Lehmann, F. Vilaplana, E. Stromberg, W. Suliman and L.R. Cerrato. (2005) loc. cit.

Google Scholar

[14] ESCAP (2011). loc. cit.

Google Scholar

[15] W. Power, editor. United Nations Environment Programme [UNEP] and Society of Environment Toxicology and Chemistry [SETAC] Life Cycle Management, How Business Uses It to Decrease Footprint, Create Opportunities and Make Value Chains More Sustainable. (2009).

Google Scholar

[16] T.M. Coelho, R. Castro and Jr J.A. Gobbo. PET Containers in Brazil: Opportunities and Challenges of a Logistics Model for Post-Consumer Waste Recycling. Department of Production Engineering, UNESP, Brazil. Resource, Conservation and Recycling, Vol. 55(3) (January 2010), pp.291-99.

DOI: 10.1016/j.resconrec.2010.10.010

Google Scholar

[17] F. Gironi and V. Piemonte. Life Cycle Assessment of Polylactic Acid and Polyethylene Terephthalate Bottles for Drinking Water. Environmental Progress & Sustainable Energy, Vol. 30(3) (10 September 2010), pp.459-68.

DOI: 10.1002/ep.10490

Google Scholar

[18] W. Power (2009). loc. cit.

Google Scholar

[19] DuPont. Sustainability Best Practice Series: Life Cycle Thinking (2011). Information on: http: /cyrel. com/na.

Google Scholar

[20] M. Amano and B. Ness (2004). loc. cit.

Google Scholar

[21] H. Ida. Current Status of Plastics Recycling in Japan. Plastic Waste Management Institute, Japan (12 December 2006). Information on http: /www. pwmi. or. jp.

Google Scholar

[22] B. Zhang and F. Kimura. Framework Research on the Greenness Evaluation of Polymer Materials. Advances in Life Cycle Engineering for Sustainable Engineering Businesses. London : Springer-Verlag (2007).

DOI: 10.1007/978-1-84628-935-4_51

Google Scholar

[23] H. Srinivas. The 3R Concept and Waste Minimization. Infopac on 3Rs - A GDRC Gateway to 3R Policies, Strategies and Action for Material Efficiency. Information on http: /www. gdrc. org/uem/waste/3r-index. html.

Google Scholar

[24] L. Akenji and M. Bengtsson. Is the Customer Really King ? - Stakeholder Analysis for Sustainable Consumption and Production Using the Example of the Packaging Value Chain, in: Sustainable Consumption and Production in the Asia-Pacific Region: Effective Responses in a Resource Constrained World Vol. III (2010).

Google Scholar

[25] K. Ramani et al. Integrated Sustainable Life Cycle Design: A Review. Mechanical Design Vol. 132 (September 2010). The Design Automation Committee of ASME.

Google Scholar

[26] N.J. Blackburn and G.M. Peters (2009). loc. cit.

Google Scholar

[27] W. Chamornmarn. External Environment Analysis: Bottled Water Business (22 June 2008). Information on http: /eiolca. net/LCAexperts/index. html.

Google Scholar

[28] A. Veshagh and A. Obagun. Survey of Sustainable Life Cycle Design and Management, 14th CIRP Conference on Life Cycle Engineering. Japan. University of Tokyo (2007), pp.237-42.

DOI: 10.1007/978-1-84628-935-4_41

Google Scholar

[29] J. Baauwbroek. CSR in the Netherlands: Changing Consumption and Production Patterns. Industry and Environment Vol. 26(4) (2003), pp.10-12.

Google Scholar

[30] S. Wongsemontha. Marketing Strategy and Advertising Tactic. Bangkok: Sam Glur Publishing (1995).

Google Scholar

[31] T. Santiwongse. Management in Century 21. 1st edition. Bangkok : Prachoomchang (2007).

Google Scholar

[32] Nestlé Waters North America-NWNA. Environmental Life Cycle Assessment of Drinking Water Alternatives & Consumer Beverage Consumption in North America. Information on http: /beveragelcafootprint. com/ (February 5, 2010).

Google Scholar

[33] Krones AG. Annual Report. Investor Press GmbH (2011).

Google Scholar

[34] B. Zhang and F. Kimura (2007). loc. cit.

Google Scholar

[35] M.K. Huber. Bottled Water: The Risks to Our Health, Our Environment, and Our Wallets. School of Public and Environmental Affairs, Honors Thesis (2010), p.25.

Google Scholar

[36] M. Barlow. Blue Gold - The Global Water Crisis and the Commodification of the World's Water Supply. Special Report, International Forum on Globalization (2001).

Google Scholar

[37] Euromonitor International. Bottled Water-Thailand. Country Sector Briefing (April 2010), p.6. Information on http: /www. euromonitor. com/bottled-water-in-thailand/report.

Google Scholar

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