The e-waste management system in Poland

Marcin CHOLEWA



Joanna KULCZYCKA


https://orcid.org/0000-0002-4377-5506

Marzena SMOL


https://orcid.org/0000-0001-5833-2954


Аннотация

The Waste Electronic and Electrical Equipment Regulations (WEEE) are intended to reduce the amount of e-waste being disposed of within the EU, and require EEE producers to pay for its reuse, recycling and recovery. It is estimated that 25% of the mass of WEEE produced in the EU-27 is collected and processed, and the remaining 75% is not recorded. In Poland a total of 1.5 kg/person was collected in 2008, and 4.4 kg/person in 2014, but it is not enough at the moment because in 2021 Poland will be obliged to recover 11 kg/person. The paper presents the barriers and challenges of the e-waste management system in Poland including an analysis of the legal, technological, ecological and market aspects, focusing on the recovery of non-energy raw materials. It was shown that the existing system of waste collection with Extended Producers Responsibility (EPR) based on EU regulations required some improvements to boost recovery and recycling of valuable materials and to be in line with the strategy for a circular economy. Despite the fact that there are over 1,500 companies involved in waste collection in Poland and waste is picked up for free from citizens, there are more and more activities promoting proper waste segregation, and waste collection is still the weakest link. The recycling companies are mainly SMEs that already implement the latest technologies and strategies for CSR and ISO 14001 certification and they are able to recover valuable resources. However, the variability of market conditions (low metal price) and regulations, as well as the dominance of the large Organisation of Electrical and Electronic Equipment Recovery (OEEER), results in competition with one another in order to obtain the lowest price, and as a result the recycling companies do not fully exploit their capacities. The consequence of these activities is the development of a grey zone. However, due to the increasing importance of materials recovery from waste and the fact that it is a priority in the most recent strategic documents in Poland, it should undergo dynamic development.

Ключевые слова:

Waste Electrical and Electronic Equipment (WEEE or e-waste), recycling, waste management system, WEEE management

Agamuthu, P.; Dennis, V. (2013). Policy trends of e-waste management in Asia. Journal of Material Cycles and Waste Management 15: 411-419.
  Google Scholar

Balde, C.P.; Kuehr, R.; Blumenthal, K.; Fondeur Gill, S.; Kern, M.; Micheli, P.; Magpantay, E.; Huisman, J. (2015). E-waste statistics Guidelines on classifications, reporting and indicators 2015. Bonn: United Nations University, IAS – SCYCLE.
  Google Scholar

Buekens, A.; Yang, J. (2014). Recycling of WEEE plastics: a review. Journal of Material Cycles and Waste Management 16(3): 415-434.
  Google Scholar

Central Statistical Office (2015). Warsaw: Central Statistical Office of Poland.
  Google Scholar

Cholewa M.; Jarosiński A.; Kulczycka J. (2014). Możliwość pozyskiwania surowców nieenergetycznych z elektroodpadów w Polsce. In: ed. Czyż, M. (ed.). Finansowe i ekologiczne aspekty działalności gospodarczej, Cracow: AGH Press.
  Google Scholar

Commission of European Communities. Communication No. 398, 2014. Towards a circular economy: A zero waste programme for Europe. (COM, No. 398, 2014).
  Google Scholar

Directive 2012/19/EU of the European Parliament and of the Council of 4 July 2012 on waste electrical and electronic equipment (2012), Official Journal of the European Union, L 197/38.
  Google Scholar

Esteves, A. M.; Franks, D.; Vanclay, F. (2012). Social impact assessment: the state of the art. Impact Assessment and Project Appraisal 30(1): 34-42.
  Google Scholar

Functioning and irregularities in the management of waste electrical and electronic equipment (WEEE) in Poland (2010). Warsaw: Instytut Badań nad Gospodarką Rynkową.
  Google Scholar

Grodzińska-Jurczak, M.; Tomal, P.; Tarabuła-Fiertak, M.; Nieszporek, K.; Read, A. D. (2006). Effects of an educational campaign on public environmental attitudes and behaviour in Poland. Resources, Conservation and Recycling 46(2): 182-197.
  Google Scholar

Hausner, J. (2015). Polish raw materials: the thing which does not exist, but it is necessary. Cracow: Fundacja Gospodarki i Administracji Publicznej.
  Google Scholar

Jang, Y. C. (2010). Waste electrical and electronic equipment (WEEE) management in Korea: generation, collection, and recycling systems. Journal of Material Cycles and Waste Management 12(4): 283-294.
  Google Scholar

Jofre, S.; Morioka, T. (2005). Waste management of electric and electronic equipment: comparative analysis of endof-life strategies. Journal of Material Cycles and Waste Management 7(1): 24-32.
  Google Scholar

Mallawarachchi, H.; Karunasena, G. (2012). Electronic and electrical waste management in Sri Lanka: suggestions for national policy enhancements. Resources, Conservation and Recycling 68: 44-53.
  Google Scholar

Manomaivibool, P.; Hong, J. H. (2014). Two decades, three WEEE systems: How far did EPR evolve in Korea's resource circulation policy?. Resources, Conservation and Recycling 83: 202-212.
  Google Scholar

Maris, E.; Botane, P.; Wavrer, P.; Froelich, D. (2015). Characterizing plastics originating from WEEE: A case study in France. Minerals Engineering 76: 28-37.
  Google Scholar

Nnorom, I. C.; Osibanjo, O. (2008) Overview of electronic waste (e-waste) management practices and legislations, and their poor applications in the developing countries. Resources, Conservation and Recycling 52(6): 843858.
  Google Scholar

Okońska-Kubica, J. (2016). Available at: https://www.facebook.com/klasterodpadowy/posts/265262873815310. Accessed 18 June 2016.
  Google Scholar

Ongondo, F. O.; Williams, I. D.; Cherrett, T. J. (2011). How are WEEE doing? A global review of the management of electrical and electronic wastes. Waste Management 31(4): 714-730.
  Google Scholar

Osibanjo, O.; Nnorom, I. C. (2007). The challenge of electronic waste (e-waste) management in developing countries. Waste Management & Research 25(6): 489-501.
  Google Scholar

Pérez-Belis, V.; Bovea, M. D. ; Gómez, A. (2013). Waste electric and electronic toys: Management practices and characterisation. Resources, Conservation and Recycling 77: 1-12.
  Google Scholar

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): 1033-1050.
  Google Scholar

Quaghebeur, M.; Laenen, B.; Geysen, D.; Nielsen, P.; Pontikes, Y.; Van Gerven, T.; Spooren, J. (2013). Characterization of landfilled materials: screening of the enhanced landfill mining potential. Journal of Cleaner Production 55: 72-83.
  Google Scholar

Register of companies and organizations recovery of electrical and electronic equipment (Rejestr przedsiębiorców i organizacji odzysku sprzętu elektrycznego i elektronicznego), CIEP, Available at: http://www.gios.gov.pl/. Accessed 21 October 2016.
  Google Scholar

Reports on the functioning of the waste electrical equipment management system for the years 2006-2014 (Raporty o funkcjonowaniu systemu gospodarki zużytym sprzętem elektrycznym za lata 2006-2014). CIEP, Warsaw 2007-2015.
  Google Scholar

Safont, E.; Vegas-Vilarrúbia, T.; Rull, V. (2012). Use of Environmental Impact Assessment (EIA) tools to set priorities and optimize strategies in biodiversity conservation. Biological Conservation 149(1): 113-121.
  Google Scholar

Second Life Electro-waste (Drugie Życie Elektrośmieci), 2012. Available at: http://drugiezycieelektrosmieci.pl/2012/materialy/33.pdf. Accessed 21 October 2016.
  Google Scholar

Sthiannopkao, S.; Wong, M. H. (2013). Handling e-waste in developed and developing countries: Initiatives, practices, and consequences. Science of the Total Environment 463: 1147-1153.
  Google Scholar

Szałatkiewicz, J. (2011). Zrobotyzowany demontaż odpadów zużytego sprzętu elektrycznego i elektronicznego w celu odzysku surowców. Pomiary, Automatyka, Robotyka 15: 236-245.
  Google Scholar

The Act of 14 December 2012 on waste (Journal of Laws 2013, Item 21).
  Google Scholar

The Act of 29 July 2005 on waste electrical and electronic equipment. (Journal of Laws 2005, No. 180, Item 1495 as amended).
  Google Scholar

There is a growing demand for the recycling of waste electrical and electronic equipment in Europe (Rośnie popyt na recykling zużytego sprzętu elektrycznego i elektronicznego w Europie), Frost & Sullivan 2013. Available at: http://www.frost.com/prod/servlet/press-release.pag?docid=286356739. Accessed 21 October 2016.
  Google Scholar

Van Schaik, A.; Reuter, M. A. (2010). Dynamic modelling of E-waste recycling system performance based on product design. Minerals Engineering 23(3): 192-210.
  Google Scholar

Widmer, R.; Oswald-Krapf, H.; Sinha-Khetriwal, D.; Schnellmann, M.; Böni, H. (2005). Global perspectives on ewaste. Environmental Impact Assessment Review 25(5): 436-458.
  Google Scholar

Ylä-Mella, J.; Poikela, K.; Lehtinen, U., Keiski, R. L.; Pongrácz, E. (2014). Implementation of waste electrical and electronic equipment directive in Finland: evaluation of the collection network and challenges of the effective WEEE management. Resources, Conservation and Recycling 86: 38-46.
  Google Scholar

Zaman, A. U.; Lehmann, S. (2013). The zero waste index: a performance measurement tool for waste management systems in a ‘zero waste city’. Journal of Cleaner Production 50: 123-132.
  Google Scholar


Опубликован
2020-12-15

##plugins.themes.libcom.cytowania##

CHOLEWA, M., KULCZYCKA, J., & SMOL, M. (2020). The e-waste management system in Poland. Economic and Environmental Studies, 16(4 (40), 605–625. извлечено от https://czasopisma.uni.opole.pl/index.php/ees/article/view/3061

Authors

Marcin CHOLEWA 

Authors

Joanna KULCZYCKA 
https://orcid.org/0000-0002-4377-5506

Authors

Marzena SMOL 
https://orcid.org/0000-0001-5833-2954

Statistics

Скачивания

Данные скачивания пока недоступны.



Наиболее читаемые статьи этого автора (авторов)