Sustainable management of household waste in a circular economy framework

Sustainable management of household waste in a circular economy framework

Jorge Osorio Daniel Roy Sophie Hennequin Charles Stirnweiss Serge Winckelmuller 

LGIPM, Ecole Nationale d’Ingénieurs de Metz CS 65820, 1 route d’Ars Laquenexy, F-57078 Metz Cedex 03

SYDEME, 12 place Robert Schumann, F-57600 Forbach

Corresponding Author Email: 
jo.osorio@enim.fr
Page: 
635-657
|
DOI: 
https://doi.org/10.3166/JESA.49.635-657
Received: 
17 May 2015
| |
Accepted: 
20 November 2015
| | Citation
Abstract: 

Developed countries have realized in recent decades that the prosperity and socio- economic development are based on the excessive use of natural resources. In addition, the actual economic model generates multiple contaminations of soil, air and water. Therefore, it is imperative to act right from the generation of these problems. This is why, in this work, we are interested in wastes management and particularly household wastes. In this context, the aim of this paper is to propose and generalize firstly a formal model to include the management of household wastes in a circular economy framework. And secondly, we propose a dashboard for controlling / optimizing the wastes management system based on industrial indicators, allowing a complete consideration of sustainable development concept. Developed work was done in collaboration with the Sydeme (East-Moselle joint syndicate for waste transport and treatment).

Keywords: 

household wastes, sustainable development, circular economy cycles, dashboard, sustainable control.

1. Introduction
2. Gestion des déchets ménagers
3. Modélisation dans un cadre d’économie circulaire
4. Indicateurs et tableau de bord
5. Conclusion
  References

ADEME (2014). Rapport de l’Agence de l’environnement et de la maîtrise de l’énergie « Déchets Edition 2014 – Chiffres clés » http://www2.ademe.fr/servlet/getDoc?sort=- 1&cid=96&m=3&id=92266&ref=14227&nocache=yes&p1=111

Aissani L., Vaxelaire S., Papinot P-E., Védrine H., Mollaret M-E., Villeneuve J. (2012). Méthodologie d’évaluation des impacts environnementaux des opérations de prétraitement des déchets. Projet CleanWasT. 143 p., 29 ill.

Beaurain C, Brullot S. (2011). L’écologie industrielle comme processus de développement territorial : Une lecture par la proximité. Revue d’Économie Régionale et Urbaine, vol 2, 313-340.

Benoit C., Norris G.A., Valdivia S., Ciroth A., Moberg A., Bos U., Prakash S., Ugaya C., Beck T. (2010). The guidelines for social life cycle assessment of products: just in time!, The International Journal of Life Cycle Assessment, vol. 15, n° 2, p. 156-163.

Bonet Fernandez D. and Petit I. (2014). Influence de l’Économie Circulaire sur la performance et l’impact sociétal des enterprises. No 2014-133, Working Papers, Department of Research, Ipag Business School.

Boutaud A. (2005). Le développement durable : penser le changement ou changer le pansement ? Thèse de Doctorat, École Supérieure des Mines de Saint-Étienne.

Byrne D. (2005). Complexity, configurations and cases. Theory, Culture & Society 22 (5), 95- 111.

Fercoq A. (2014). Contribution à la modélisation de l’intégration lean green appliquée au management des déchets pour une performance équilibrée (économique, environnementale, sociale). Thèse de Doctorat, ENSAM ParisTech, Paris, 2014.

Ghiani G., Laganà D., Manni E., Musmanno R., Vigo D. (2014). Operations research in solid waste management: A survey of strategic and tactical issues. Computers &OperationsResearch, (44), 22-32.

Greene K. L., Tonjes D. J. (2014). Quantitative assessments of municipal waste management systems: Using different indicators to compare and rank programs in New York State. Waste Management, 34, p. 825-836.

Krüger S., Berger A., Krause U. (2012). Chemical–analytical investigation of fire products in intermediate storages of recycling materials. Fire and Materials 36(3), 165-175.

Lavee D., Nardiya S., (2013). A cost evaluation method for transferring municipalities to solid waste source-separated system, Waste Management, 33(5), p. 1064-1072.

Li X., Deng B., Ye H. (2011). The Research Based on the 3-R Principle of Agro-circular Economy Model-The Erhai Lake Basin as an Example. Energy Procedia, 5, p. 1399- 1404.

McDonough W. et Braungart M. (2011). Cradle to cradle. Créer et recycler à l’infini, 1re version française publiée le 24 février 2011, collection Manifestô, éditions Alternatives.

Marshall R. E., Farahbakhsh K. (2013). Systems approaches to integrated solid waste management in developing countries. Waste Management, 33(4), p. 988-1003.

Mendes M., Santos A. C., Perna F., Ribau Teixeira M. (2012). The balanced scorecard as an integrated model applied to the Portuguese public service: a case study in the  waste sector. Journal of Cleaner Production, 24, p. 20-29.

Miles R., Hamilton K. (2006). Learning UML 2.0, O’Reilly Media; first edition (May 2).

Min. Envir. (2010). Rapport du Ministère de l’Environnement français datant de 2010 http://www.developpement-durable.gouv.fr/IMG/pdf/CS385.pdf

MIT (1972). Document en anglais http://www.donellameadows.org/wp-content/userfiles/ Limits-to-Growth-digital-scan-version.pdf vérifié en mai 2014.

Mosler H. J., Drescher S., Zurbrügg C., Caballero Rodriguez T., Guzman Miranda O. (2006). Formulating waste management strategies based on waste management practices of households in Santiago de Cuba, Cuba. Habitat International, 30(4), p. 849-862.

Paniers Tom (2002). Introduction à UML. Osman Eyrolles multimédia.

Pires A., Martinho G., Chang N.-B. (2011). Solid waste management in European countries: A review of systems analysis techniques. Journal of Environmental Management, 92(4), p. 1033-1050.

Rapport Bruntland (1987). Rapport publié suite à la conférence des Nations Unies à Stockholm en 1983. http://www.worldbank.org/depweb/english/sd.html site internet vérifié en mai 2014.

Redclift M. (2009). Sustainable development (1987-2005) – an oxymoron comes of age. Problemy Ekorozwoju, 4(1), 33-50.

Roques P. (2008). SySML par l’exemple : Un langage de modélisation pour systèmes complexes. Editions Eyrolles, Paris.

Roques P. et Vallée F. (2011). UML 2 en action : de l’analyse des besoins à la conception, Editions Eyrolles, Paris.

Rumbaugh James, Jacobson Ivar, and Booch Grady. 2004. Unified Modeling Language Reference Manual, the (2nd Edition). Pearson Higher Education.

Scipioni A., Mazzi A., Mason M., Manzardo A. (2009). The Dashboard of Sustainability to measure the local urban sustainable development: The case study of Padua Municipality. Ecological indicators, 9, p. 364-380.

Srivastava P.K., Kulshreshtha K., Mohanty C.S., Pushpangadan P. and Singh A. (2005). Stakeholder-based SWOT analysis for successful municipal waste management in Lucknow, India. Waste managemen, 25(5), p. 531-537.

Sydeme (2015). Syndicat mixte de transport et de traitement des déchets de Moselle-Est http://www.sydeme.fr/site/index.php

Uyarra E., Gee S. (2013). Transforming urban waste into sustainable material and energy usage: the case of Greater Manchester (UK), Journal of Cleaner Production, 50, p. 101- 110.

Yi M. Z., Guo H. H., Li H. (2011). An inexact reverse logistics model for municipal solid waste management systems. Journal of Environmental Management, 92(3), p. 522-530.

Ying J., Li-Jun Z. (2012). Study on Green Supply Chain Management Based on Circular Economy. Physics Procedia, 25, p. 1682-1688.

Yuan H. (2013). A SWOT analysis of successful construction waste management, Journal of Cleaner Production, 39, January 2013, p. 1-8.

Zurbrügg C., Gfrerer M., Ashadi H., Brenner W., Küper D. (2012). Determinants of sustainability in solid waste management – The Gianyar Waste Recovery Project in Indonesia. Waste Management, 32(11), p. 2126-2133.