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The online version of this article (doi:10.1007/s11367-014-0705-6) contains supplementary material, which is available to authorized users.
This study discusses the use of parameterization within the life cycle inventory (LCI) in the wooden pallet sector, in order to test the effectiveness of LCI parametric models to calculate the environmental impacts of similar products. Starting from a single case study, the objectives of this paper are (1) to develop a LCI parametric model adaptable to a range of wooden pallets, (2) to test this model with a reference product (non-reversible pallet with four-way blocks) and (3) to determine numerical correlations between the environmental impacts and the most significant LCI parameters; these correlations can be used to improve the design of new wooden pallets.
The conceptual scheme for defining the model is based on ISO14040-44 standards. First of all, the product system was defined identifying the life cycle of a generic wood pallet, as well as its life cycle stages. A list of independent and dependent parameters was used to describe the LCI flows of a generic wooden pallet. The LCI parametric model was applied to calculate the environmental impacts of the reference product, with regard to a selection of impact categories at midpoint level (climate change, human toxicity, particulate matter formation, agricultural land occupation, fossil depletion). The model was then applied to further 11 wooden pallets belonging to the same category.
The definition of a LCI parametric model based on 31 independent parameters and 21 dependent parameters streamlined the data collection process, as the information required for fulfilling the LCI are standard information about the features of the wooden pallet and its manufacturing process. The contribution analysis on the reference product revealed that the most contributing life cycle stages are wood and nails extraction and manufacturing (positive value of environmental impact) and end-of-life (avoided impact). This result is driven by two parameters: mass of wood and average distance for transport of wood. Based on the results of the application of the LCI parametric model to the identified products, one parameter-based regression and one multiple non-linear regression allowed to define a correlation between the life cycle impact assessment (LCIA) category indicators considered and the most influencing parameters.
The definition of LCI parametric model in the wooden pallet sector can effectively be used for calculating the environmental impacts of products with different designs, as well as for obtaining a preliminary estimation of the life cycle environmental impacts of new products.
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Anil SK, Ray CD, Okudan Kremer GE (2010) Comparison of treatment methods for pallets using LCA and dynamic programming. Proceedings of 60th Institute of Industrial Engineers Annual Conference, Cancun, Mexico
Asif M, Davidson A, Muneer T (2002) Life cycle of window materials—a comparative assessment. Millenium Fellow School of Engineering, Napier University, Edinburgh. http://www.cibse.org/pdfs/Masif.pdf. Accessed 11 April 2013.
Baitz M, Albrecht S, Brauner E, Broadbent C, Castellan G, Conrath P, Fava J, Finkbeiner M, Fischer M, Fullana i Palmer P, Krinke S, Leroy C, Loebel O, McKeown P, Mersiowsky I, Möginger B, Pfaadt M, Rebitzer G, Rother E, Ruhland K, Schanssema A, Tikana L (2013) LCA’s theory and practice: like ebony and ivory living in perfect harmony? Int J Life Cycle Assess 18:5–13 CrossRef
Bala A, Raugei M, Benveniste G, Gazulla C, Fullana-i-Palmer P (2010) Simplified tools for global warming potential evaluation: when ‘good enough’ is best. Int J Life Cycle Assess 15:489–498 CrossRef
Baumann H, Tillman A-M (2004) The hitch hiker’s guide to LCA. Studentlitteratur, Lund
Bey N (2000) The oil point method—a tool for indicative environmental evaluation in material and process selection. PhD dissertation, Section for Production Technology Department of Manufacturing Engineering Technical University of Denmark, ISBN 87-90855-09-4
Beyer G, Defays M, Fischer M, Fletcher J, de Munck E, de Jaeger F, Van Riet C, Vandeweghe K, Wijnendaele K (2011) Tackle climate change: use wood. 2nd revision. CEI-Bois. http://www.cei-bois.org. Accessed 5 May 2013
Classen M, Althaus H-J, Blaser S, Tuchschmid M, Jungbluth N, Doka G, Faist Emmenegger M, Scamhorst W (2009) Life cycle inventories of metals. Final report ecoinvent data v2.1, No 10, EMPA Dübendorf, Swiss Centre for Life Cycle Inventories, Dübendorf, CH, on-line version under www.ecoinvent.ch
Collado-Ruiz D, Ostad-Ahmad-Ghorabi H (2010) Comparing LCA results out of competing products: developing reference ranges from a product family approach. J Clean Prod 18(4):355–364 CrossRef
Collado-Ruiz D, Ostad-Ahmad-Ghorabi H (2013) Estimating environmental behavior without performing a life cycle assessment. J Ind Ecol 17(1):31–42 CrossRef
Cooper JS, Noon M, Kahn E (2012) Parameterization in life cycle assessment inventory data: review of current use and the representation of uncertainty. Int J Life Cycle Assess 17:689–695 CrossRef
Curran AM (2011) Maintaining quality critical peer review (CPR) as the demand for life cycle assessments increases. In: Proceedings of LCM 2011 “Towards life cycle sustainability management”, 28–31 August 2011, Berlin, Germany
Dick M, Dewulf W, Birkhofer H, Duflou J (2004) Estimating the environmental impacts of similar products. Proceedings of International Design Conference, May 18–21, 2004, Dubrovnik, Croatia.
Dotelli G (2011) Life cycle assessment of the EUR/EPAL pallet (Italian title: Life cycle assessment del pallet EUR/EPAL). Milano: Politecnico di Milano, Dipartimento di Chimica, Materiali e Ingegneria Chimica “Giulio Natta”, Comitato Nazionale EPAL del Consorzio Servizi Legno Sughero, EPAL, Assoimballaggi-Federlegno Arredo Ed. Lampi di stampa.
Early C, Kidman T, Menvielle M, Geyer R, McMullan R (2009) Informing packaging design decisions at Toyota motor sales using life cycle assessment and costing. J Indust Ecol 13(4):592–606 CrossRef
EC (1994) European parliament and Council Directive 94/62/EC of 20 December 1994 on packaging and packaging waste. Official Journal of the European Communities No L 365/10
EC-JRC (2010) International Reference Life Cycle Data System (ILCD) handbook. General guide for life cycle assessment. Detailed guidance. European Commission, Joint Research Centre, Institute for Environment and Sustainability. Ispra (VA)
ERM (2008) Streamlined life cycle assessment of the iGPS pallet, the typical pooled wooden pallet, and the single-use wooden pallets. Environmental Resources Management http://www.igps.net/pdf/Pallet_LCA_Brief_7_30_2008.pdf. Accessed 11 April 2013
European Confederation of Woodworking Industries (2006) European Confederation of Woodworking Industries (CEI-Bois 2006). http://www.cei-bois.org. Accessed 5 May 2013
FAO (2009) International standards for phytosanitary measures ISPM 15 regulation of wood packaging material in international trade. International Plant Protection Convention. Food and Agriculture Organization of the United Nations, Rome
FAO (2013) FAO yearbook. Forest products 2007–2011. FAO Forestry Series No. 46, FAO Statistics Series No. 202. Food and Agriculture Organization of the United Nations. Rome
Finnveden G, Hauschild MZ, Ekvall T, Guine’ G, Heijungs R, Hellweg S, Koehler A, Pennington D, Suh S (2009) Recent developments in life cycle assessment. J Environ Manage 91:1–21 CrossRef
Frischknecht R (2010) LCI modelling approaches applied on recycling of materials in view of environmental sustainability, risk perception and eco-efficiency. Int J Life Cycle Assess 15:666–671 CrossRef
Frischknecht R, Jungbluth N, Althaus H-J, Doka G, Dones R, Heck T, Hellweg S, Hischier R, Nemecek T, Rebitzer G, Spielmann M (2005) The ecoinvent database: overview and methodological framework. Int J Life Cycle Assess 10(1):3–5 CrossRef
Gasol CM, Farreny R, Gabarrell X, Rieradevall J (2008) Life cycle assessment comparison among different reuse intensities for industrial wooden containers. Int J Life Cycle Assess 13(5):421–431 CrossRef
Geyer R (2008) Parametric assessment of climate change impacts of automotive material substitution. Environ Sci Technol 42(18):6973–6979 CrossRef
Goedkoop M, Heijungs R, Huijbreghts MAJ, De Schryver A, Struijs J, van Zelm R (2009) ReCiPe 2008. A life cycle impact assessment method which comprises harmonised category indicators at the midpoint and the endpoint level. First edition. Report I: characterisation. 6 January 2009. Full report available at http://www.lcia-recipe.net/.
González-García S, Silva FJ, Moreira MT, Castilla Pascual R, García Lozano R, Gabarrell X, Rieradevall i Pons J, Feijoo G (2011) Combined application of LCA and eco-design for the sustainable production of wood boxes for wine bottles storage. Int J Life Cycle Assess 16:224–237 CrossRef
GreenBlue (2009) Sustainable packaging indicators and metrics framework, version 1.0, unpublished report, Charlottesville, VA, US. http://www.greenblue.org. Accessed 5 May 2013.
Hischier R (2007) Life cycle inventories of packaging and graphical papers. Ecoinvent-Report No11, Swiss Centre for Life Cycle Inventories. Dübendorf, Switzerland
Hischier R, Althaus H, Werner F (2005) Developments in wood and packaging materials life cycle inventories in ecoinvent. Int J Life Cycle Assess 10(1):50–58 CrossRef
Huijbreghts MAJ, Rombouts LJ, Hellweg S, Frischknecht R, Hendriks AJ, van de Meent D, Ragas AMJ, Reijnders L, Struijs J (2006) Is cumulative fossil energy demand a useful indicator for the environmental performance of products? Environ Sci Technol 40(3):641–648 CrossRef
Humbert S, Rossi V, Margni M, Jolliet O, Lerincik Y (2009) Life cycle assessment of two baby food packaging alternatives: glass jars vs. plastic pots. Int J Life Cycle Assess 14:95–106 CrossRef
ISO (2006a) Environmental management. Life cycle assessment. Principle and framework. ISO 14040:2006. International Organization for Standardisation, Geneva, Switzerland
ISO (2006b) Environmental management. Life cycle assessment. Requirements and guidelines. ISO 14044:2006. International Organization for Standardisation (ISO), Geneva, Switzerland
ISO (2013) ISO 445:2013 pallets for materials handling—vocabulary. International Organization for Standardisation (ISO), Geneva, Switzerland
Lazarevic D, Aoustin E, Buclet N, Brandt N (2010) Plastic waste management in the context of a European recycling society: comparing results and uncertainties in a life cycle perspective. Resou Conserv Recy 55(2):246–259 CrossRef
Lee SG, Xu X (2004) A simplified life cycle assessment of re-usable and single-use bulk transit packaging. Packag Technol Sci 17:67–83 CrossRef
Michelsen O (2007) Assessment of land use impact on biodiversity—proposal of a new methodology exemplified with forestry operations in Norway. Int J Life Cycle Assess 13(1):22–31
Millet D, Bistagnino L, Lanzavecchia C, Camous R, Poldma T (2007) Does the potential of the use of LCA match the design team needs? J Cleaner Prod 15(4):335–346 CrossRef
Mueller KG, Lampérth MU, Kimura F (2004) Parameterised inventories for life cycle assessment—systematically relating design parameters to the life cycle inventory. Int J Life Cycle Assess 9(4):227–235 CrossRef
Ng R, Shi CWP, Tan HX, Song B (2013) Avoided impact quantification from recycling of wood waste in Singapore: an assessment of pallet made from technical wood versus virgin softwood. J Cleaner Prod. doi: 10.1016/j.jclepro.2013.07.053
Niero M (2013a) The inventory indicator non renewable fossil cumulative energy demand as a decision support tool within LCA (Italian title: L’indicatore di inventario Non Renewable Fossil Cumulative Energy Demand come strumento a supporto del processo decisionale in ambito LCA). In Proceedings of 7th Conference of the Italian LCA Network (Italian title: atti del VII Convegno della Rete Italiana LCA. Life Cycle Assessment e ottimizzazione ambientale: esempi applicativi e sviluppi metodologici). ENEA, ISBN 978-88-8286-292-3, Milan, 27–28 June 2013, 336–342. http://www.enea.it/it/produzione-scientifica/edizioni-enea/2013/atti-LCA-2013. Accessed 4 July 2013
Niero M (2013b) Solutions to improve the reliability and applicability of life cycle assessment in industries. Tesi di dottorato in Ingegneria Industriale (PhD dissertation in Industrial Engineering), Universitá degli Studi di Padova
Ostad-Ahmad-Ghorabi H, Collado-Ruiz D (2011) Tool for the environmental assessment of cranes based on parameterization. Int J Life Cycle Assess 16(5):392–400 CrossRef
Pesonen H-L, Horn S (2013) Evaluating the sustainability SWOT as a streamlined tool for life cycle sustainability assessment. Int J Life Cycle Assess 18(9):1780–1792 CrossRef
Petráš I, Bednárová D (2010) Total least squares approach to modeling: a Matlab toolbox. Acta Montan Slovaca 15:158–170
Rigamonti L, Grosso M (2010) LCA for the evaluation of the benefits associated with the recycling of materials within waste separates collection (Italian title: LCA per la valutazione dei benefici associati al riciclo dei materiali separati con la raccolta differenziata). In: Proceedings of the scientific conference of the Italian LCA network “La metodologia LCA: approccio proattivo per le tecnologie ambientali. Casi studio ed esperienze applicative”. Padova (Italy), 22 April 2010
Rigamonti L, Grosso M, Sunseri MC (2009) Influence of assumptions about selection and recycling efficiencies on the LCA of integrated waste management systems. Int J Life Cycle Assess 14(5):411–419 CrossRef
Rilegno (2010) Specific plan for prevention and management 2011. Multi-year programme of prevention of production of packaging waste. (Italian title: Piano specifico di prevenzione e gestione 2011. Programma pluriennale di prevenzione della produzione di rifiuti di imballaggio). Rilegno – Consorzio Nazionale per la raccolta, il recupero e il riciclaggo degli imballaggi in legno, Cesenatico (Italia), pp 14–23. http://www.rilegno.org. Accessed 11 April 2013
Rivela B, Hospido A, Moreira MT, Feijoo G (2006) Life cycle inventory of particleboard: a case study in the wood sector. Int J Life Cycle Assess 11(2):106–113 CrossRef
Scipioni A, Niero M, Mazzi A, Manzardo A, Piubello S (2013) Significance of the use of non-renewable fossil CED as proxy indicator for screening LCA in the beverage packaging sector. Int J Life Cycle Assess 18:673–682 CrossRef
Silva DAL, Lahr FAR, Garcia RP, Freire FMCS, Ometto AR (2013) Life cycle assessment of medium density particleboard (MDP) produced in Brazil. Int J Life Cycle Assess 18(7):1404–1411 CrossRef
Spielmann M, Bauer C, Dones R, Tuchschmid M (2007) Transport services. Ecoinvent-Report No14, Swiss Centre for Life Cycle Inventories. Dübendorf, Switzerland
Taylor J, van Langenberg K (2003) Review of the environmental impact of wood compared with alternative products used in the production of furniture. CSIRO Forestry and Forest Products Research and Development Corporation, Victoria. http://www.adwood-manufacturing.com/pdfs/AustralianWoodEnvironmentalStudy.pdf. Accessed 11 April 2013
U.S. Life Cycle Inventory Database (2012) National Renewable Energy Laboratory, 2012. http://www.lcacommons.gov/nrel/search. Accessed 5 May 2013
Werner F, Althaus H-J, Künnlger T, Richter K, Jungbluth N (2007) Life cycle inventories of wood as fuel and construction material, ecoinvent report no. 9, Swiss Centre for Life Cycle Inventories, Dübendorf, Switzerland
Zamagni A, Masoni P, Buttol P, Raggi A, Buonamici R (2012) Finding life cycle assessment research direction with the aid of meta-analysis. J Ind Ecol 16:S39–S52 CrossRef
Zimmermann T (2013) Parameterized tool for site specific LCAs of wind energy converters. Int J Life Cycle Assess 18:49–60 CrossRef
- How can a life cycle inventory parametric model streamline life cycle assessment in the wooden pallet sector?
Francesco Di Felice
- Springer Berlin Heidelberg
The International Journal of Life Cycle Assessment
Print ISSN: 0948-3349
Elektronische ISSN: 1614-7502