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Application of EASEWASTE model for assessing environmental impacts from solid waste landfilling

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Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Dumping sites or landfills are considered as foremost common option of waste management worldwide. Dumping sites, often not lined, represent a potential environmental issue causing a long-term risk to the environment and health. A number of computers model-based studies have described the solid waste collection and its management, but provide little information about the relative contributions regarding environmental impacts of landfilling especially in the context of developing world. The aim of study was to estimate environmental impacts from dumping site by using EASEWASTE model. A case study was carried out at an old and closed dumping site filled with mixed waste without bottom liner, no leachate collection and gas collection. On the basis of the existing dumping site investigation, a Mahmood Booti Dumping Site Scenario was developed, and related data of waste generation & composition was collected and added to assess environmental impacts. The results show that human toxicity via soil (9.14E+09 m3 soil) had the highest potential impact, followed by global warming (8.83E+11 Kg CO2-eq), eco-toxicity in water (6.25E+11 m3 water), and eco-toxicity in soil (6.54E+10 m3 soil). This is mostly caused by leaching of heavy metals from ashes (e.g. residues from roads cleaning and vacuum cleaning bags), batteries, paper and metals. The adopted risk analysis approach uses easily accessible computer aided models, for open dumping sites, appears to be a key tool to assist decision makers in establishing priorities for remediation action.
Słowa kluczowe
Rocznik
Strony
84--92
Opis fizyczny
Bibliogr. 33 poz., fot., rys., tab.
Twórcy
autor
  • College of Earth and Environmental Sciences, University of the Punjab, Pakistan
  • Department of Environmental Science and Policy, Lahore School of Economics, Pakistan
  • Remote Sensing, GIS and Climatic Research Lab, Department of Space Sciences, University of the Punjab, Pakistan
  • Remote Sensing, GIS and Climatic Research Lab, Department of Space Sciences, University of the Punjab, Pakistan
  • Department of Environmental Sciences, Government College Women University, Sialkot, Pakistan
  • Department of Biology, College of Sciences, King Khalid University, Abha, Saudi Arabia
Bibliografia
  • 1. Alam, A., Tabinda, A.B., Qadir, A., Butt, T.E., Siddique, S. & Mahmood A. (2017). Ecological Risk Assessment of an Open Dumping Site at Mehmood Booti Lahore, Pakistan. Environmental Science and Pollution Research, 24(21), pp. 17889-99. DOI: 10.1007/s11356-017-9215-y
  • 2. Alam, A., Chaudhry, M.N., Mahmood, A., Ahmad, S.R., & Butt, T.E. (2021). Development & application of Conceptual Framework Model (CFM) for environmental risk assessment of contaminated lands. Saudi Journal of Biological Sciences, 28(11), pp. 6167-6177. DOI: 10.1016/j.sjbs.2021.06.069
  • 3. Buratti, C., Barbanera, M., Testarmata, F. & Fantozzi, F. (2015). Life Cycle Assessment of Organic Waste Management Strategies: An Italian Case Study. Journal of Cleaner Production, 89, pp.125-36. DOI: 10.1016/j.jclepro.2014.11.012
  • 4. Diaz, R. & Warith, M. (2006). Life-Cycle Assessment of Municipal Solid Wastes: Development of the WASTED Model. Waste Management, 26(8), pp. 886-901. DOI: 10.1016/j.wasman.2005.05.007
  • 5. Fatima, S.A., Chaudhry, M.N. & Batool, S.A. (2019). Environmental Impacts of the Existing Solid Waste Management System of Northern Lahore. Chinese Journal of Urban and Environmental Studies, 07(03), pp. 1950013. DOI: 10.1142/S2345748119500131
  • 6. Gentil, E. C., Damgaard, A., Hauschild, M., Finnveden, G., Eriksson, O., Thorneloe, S. & Christensen, T. H. (2010). Models for waste life cycle assessment: Review of technical assumptions. Waste Management, 30(12), pp. 2636-2648. DOI: 0.1016/j.wasman.2010.06.004
  • 7. Grzesik, K. (2017). Comparative environmental impact assessment of the landfilling and incineration of residual waste in Krakow. Environment Protection Engineering, 43(4), pp. 135-148. DOI: 10.5277/epel70411
  • 8. Guleria, A. & Chakma, S. (2019). Probabilistic human health risk assessment of groundwater contamination due to metal leaching: A case study of Indian dumping sites. Human and Ecological Risk Assessment: An International Journal, pp. 1-33. DOI: 10.1080/10807039.2019.1695193
  • 9. Jagoda G.S (2018). Municipal waste thermal treatment installations in Poland - a source of energy of environmental importance. Archives of Environmental Protection, 105, pp. 147-156. DOI: 10.24425/124370
  • 10. Laurent, A., Bakas, I., Clavreul, J., Bernstad, A., Niero, M., Gentil, E. & Christensen, T.H. (2014). Review of LCA studies of solid waste management systems - Part I: Lessons learned and perspectives. Waste Management, 34(3), pp. 573-588. DOI: 10.1016/j.wasman.2013.10.045
  • 11. Liu, Y., Sun, W. & Liu, J. (2017). Greenhouse gas emissions from different municipal solid waste management scenarios in China: Based on carbon and energy flow analysis. Waste Management, 68, pp. 653-661. DOI: 10.1016/j.wasman.2017.06.020
  • 12. Maalouf, A. & El-Fadel, M. (2019). Life cycle assessment for solid waste management in Lebanon: Economic implications of carbon credit. Waste Management and Research, 37(1), pp. 14-26. DOI: 10.1177/0734242X18815951
  • 13. Mahmood, A. & Malik, R.N. (2014). Human health risk assessment of heavy metals via consumption of contaminated vegetables collected from different irrigation sources in Lahore, Pakistan. Arabian Journal of Chemistry, 7(1), pp. 91-99. DOI: 10.1016/j.arabjc.2013.07.002
  • 14. Mahmood, K., Batool, S.A., Chaudhary, M.N. & Ul-Haq, Z. (2017). Ranking criteria for assessment of municipal solid waste dumping sites. Archives of Environmental Protection, 43(1), pp. 95-105. DOI: 10.1515/aep-2017-0009
  • 15. Maiti, S.K., De, S., Hazra, T., Debsarkar, A. & Dutta, A. (2016). Characterization of Leachate and Its Impact on Surface and Groundwater Quality of a Closed Dumpsite - A Case Study at Dhapa, Kolkata, India. Procedia Environmental Sciences, 35, pp. 391-399. DOI: 10.1016/j.proenv.2016.07.019
  • 16. Majeed, A., Batool, S. & Chaudhry, M. (2018). Environmental Quantification of the Existing Waste Management System in a Developing World Municipality Using EaseTech: The Case of Bahawalpur, Pakistan. Sustainability, 10(7), pp. 2424. DOI: 10.3390/su10072424
  • 17. Mali, S.T. & Patil, S.S. (2016). Life-cycle assessment of municipal solid waste management. Proceedings of Institution of Civil Engineers: Waste and Resource Management, 169(4), pp. 181-190. DOI: 10.1680/jwarm.16.00013
  • 18. Malinauskaite, J., Jouhara, H., Czajczyńska, D., Stanchev, P., Katsou, E., Rostkowski, P. & Spencer, N. (2017). Municipal solid waste management and waste-to-energy in the context of a circular economy and energy recycling in Europe. Energy, 141, pp. 2013-2044. DOI: 10.1016/j.energy.2017.11.128
  • 19. Maria, C., Góis, J. & Leitão, A. (2020). Challenges and perspectives of greenhouse gases emissions from municipal solid waste management in Angola. Energy Reports, 6 (Supplement 1), pp. 364-369. DOI: 10.1016/j.egyr.2019.08.074
  • 20. Marshall, R. E. & Farahbakhsh, K. (2013). Systems approaches to integrated solid waste management in developing countries. Waste Management, 33(4), pp. 988-1003. DOI: 10.1016/j.wasman.2012.12.023
  • 21. Noya, I., Inglezakis, V., González-García, S., Katsou, E., Feijoo, G. & Moreira, M. (2018). Comparative environmental assessment of alternative waste management strategies in developing regions: A case study in Kazakhstan. Waste Management & Research, 36(8), pp. 689-697. DOI: 10.1177/0734242X18786388
  • 22. Parkes, O., Lettieri, P. & Bogle, I.D.L. (2015). Life cycle assessment of integrated waste management systems for alternative legacy scenarios of the London Olympic Park. Waste Management, 40, pp. 157-166. DOI: 10.1016/j.wasman.2015.03.017
  • 23. Popiţa, G.E., Baciu, C., Rédey, Á., Frunzeti, N., Ionescu, A., Yuzhakova, T. & Popovici, A. (2017). Life cycle assessment (LCA) of municipal solid waste management systems in Cluj county, Romania. Environmental Engineering and Management Journal, 16(1), pp. 47-58. DOI: 10.30638/eemj.2017.006
  • 24. Rajaeifar, M.A., Tabatabaei, M., Ghanavati, H., Khoshnevisan, B. & Rafiee, S. (2015). Comparative life cycle assessment of different municipal solid waste management scenarios in Iran. Renewable and Sustainable Energy Reviews, 51, pp. 886-898 DOI: 10.1016/j.rser.2015.06.037
  • 25. Ramachandra, T.V., Bharath, H.A., Kulkarni, G. & Han, S.S. (2018). Municipal solid waste: Generation, composition and GHG emissions in Bangalore, India. Renewable and Sustainable Energy Reviews, 82, pp. 1122-1136. DOI: 10.1016/j.rser.2017.09.085
  • 26. Rana, R., Ganguly, R. & Gupta, A.K. (2019). Life-cycle assessment of municipal solid-waste management strategies in Tricity region of India. Journal of Material Cycles and Waste Management, 21(3), pp. 606-623. DOI: 10.1007/s10163-018-00822-0
  • 27. Sharma, B. K. & Chandel, M.K. (2017). Life cycle assessment of potential municipal solid waste management strategies for Mumbai, India. Waste Management and Research, 35(1), pp. 79-91. DOI: 10.1177/0734242X16675683
  • 28. Singh, A. & Raj, P. (2018). Segregation of waste at source reduces the environmental hazards of municipal solid waste in Patna, India. Archives of Environmental Protection, 44(4), pp. 96-110. DOI: 10.24425/aep.2018.122306
  • 29. Smol, M., Kulczycka, J., Lelek, Ł., Gorazda, K. & Wzorek, Z. (2020). Life Cycle Assessment (LCA) of the integrated technology for the phosphorus recovery from sewage sludge ash (SSA) and fertilizers production. Archives of Environmental Protection, 46(2), pp. 42-52. DOI: 10.24425/aep.2020.133473
  • 30. Szymański, K. & Janowska, B. (2016). Migration of pollutants in porous soil environment. Archives of Environmental Protection, 42(3), pp. 87-95. DOI: 10.1515/aep-2016-0026
  • 31. Thomsen, M., Seghetta, M., Mikkelsen, M.H., Gyldenkærne, S., Becker, T., Caro, D. & Frederiksen, P. (2017). Comparative life cycle assessment of biowaste to resource management systems - A Danish case study. Journal of Cleaner Production, 142, pp. 4050-4058. DOI: 10.1016/j.jclepro.2016.10.034
  • 32. Vimpolšek, B., Jereb, B., Lerher, T., Kutnar, A. & Lisec, A. (2019). Models for life cycle assessment: Review of technical assumptions in collection and transportation processes. Tehnicki Vjesnik, 26(6), pp. 1861-1868. DOI: 10.17559/TV-20181209160911
  • 33. Winkler, J. & Bilitewski, B. (2007). Comparative evaluation of life cycle assessment models for solid waste management. Waste Management, 27(8), pp. 1021-1031. DOI: 10.1016/j.wasman.2007.02.023
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-bf7dbb72-3286-4c5d-b366-37efcc8afc2c
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