Life cycle assessment of industrial and urban wastewater treatment plant
Iwona SKOCZKO
https://orcid.org/0000-0002-7397-4231
Ewa SZATYŁOWICZ
https://orcid.org/0000-0001-6659-4452
Magdalena HORYSZ
Łukasz MALINOWSKI
Alican TUNC
Abstrakt
Life Cycle Assessment (LCA) is a technique to assess environmental impacts associated with all the stages of a product's life from cradle to grave. With raising human population and the increasing industrialization, there has been very substantial increase in waste products too. Nowadays the importance of the wastewater treatment (domestic and industrial wastewater) need more attention in terms of the ecological balance. In this article a study was conducted and focused on the comprehension of the methods which are used for life cycle assessment and evaluation of environmental effects. In the proceeding sections of this study, Life Cycle Assessment method was used for evaluation the environmental advantages and expenses of other different wastewater treatment technologies and standards. An inventory of the input (chemical substances, electrical energy etc.) and output (emissions releases into the water, earth and the air, amount of sludge etc.) of the plants, where wastewater is treated, was documented. Potential environmental effects of the input and the output was assessed too. Finally, the obtained results were interpreted with regard to the objectives of LCA. With regard to these studies, attention was drawn to the importance of wastewater treatment plants which are regularly managed. Utilization of treatment systems resources and its effects on human health and ecology were assessed, finally the most suitable methods of wastewater treatment methods were tried to be explained with best examples.
Klíčová slova:
Life Cycle Assessment, Wastewater Treatment, Wastewater Treatment Methods and Environmental EffectsReference
Alfonsín, C.; Hospido, A.; Omil, F.; Moreira, M.T.; Feijoo G. (2014). PPCPs in wastewater – Update and calculation of characterization factors for their inclusion in LCA studies. Journal of Cleaner Production 83: 245- 255.
Google Scholar
Cashman, S. et. al. (2014). Environmental and Cost Life Cycle Assessment of Disinfection Options for Municipal Wastewater Treatment. Office of Research and Development. National Homeland Security Research Center.
Google Scholar
Curan, M.A. (2005). LCA Team Leader, “What is the LCA?”. Ohio: USA Environmental Protection Agency; National Risk Management Research Laboratory, 26 W. Martin Luther King Drive, Cincinnati, Ohio 45268.
Google Scholar
EcoPaperLoop (2014). Guide: Eco-design for recycling: sustainability criteria. [in Polish]
Google Scholar
Guinee, J. et al. (2011). Life cycle assessment: past, present, and future. Environmental Science & Technology 45(1): 90-96.
Google Scholar
Hauschild, M.Z.; Huijbregts, M.A.J. (2015). LCA Compendium – The Complete World of Life Cycle Assessment. Dordrecht: Springer Science Business Media.
Google Scholar
Hauschild, M.Z.; Huijbregts, M.A.J. (2015). Life Cycle Impact Assessment.
Google Scholar
Hunt, R.G. (1995). LCA considerations of solid waste management alternatives for paper and plastics. Resource, Conservation and Recycling 14: 225-231.
Google Scholar
International Standardisation Organisation (ISO) 14040: 1997 Environmental management – Life cycle assessment – Principles and framework. Geneva, Switzerland: ISO.
Google Scholar
Pierre, F. (2009). Implementation of LCA on a wastewater treatment plant. Preliminary results. Nancy, France: Laboratoire des Sciences du Génie Chimique.
Google Scholar
Project report for Sewage Treatment Plant at Ambur under Palar river action plan (2002). Prepared by Department of Environmental Technology, Central Leather Research Institute, Chennai, India, June 2002.
Google Scholar
Renou, S.; Thomas J.S.; Aoustin E.; Pons M.N. (2008). Influence of impact assessment methods in wastewater treatment LCA. Journal of Cleaner Production 16(10): 1098-1105.
Google Scholar
Risch, E.; Loubet, P.; Núñez, M.; Roux, P. (2014). How environmentally significant is water consumption during wastewater treatment?: Application of recent developments in LCA to WWT technologies used at 3 contrasted geographical locations. Water Research 57: 20-30.
Google Scholar
Srinivasan, S.V., Ravindranath E., Sunthanthararajan R., Balakameswari Sri K., Chitra K., Umamaheswari B. (2008). Application of life cycle assessment for sustainable urban wastewater management. 3rd International Conference on Appropriate Technology.
Google Scholar
Tillman, A.M.; Svingby, M.; Lundostrȍm, H. (1998). Life Cycle Assessment of municipal wastewater systems. Int. J. LCA 3: 145 –157.
Google Scholar
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Magdalena HORYSZ##libcom.authors##
Łukasz MALINOWSKI##libcom.authors##
Alican TUNC##libcom.statistics##
Stažení
Nejaktuálnější články stejného autora (stejných autorů)
- Iwona Skoczko, Ewa Szatyłowicz, Łukasz Malinowski, Economic Analysis of Selected Filter Beds Used for Water Treatment , Economic and Environmental Studies: Vol 17 No 4 (44) (2017)
