Anaerobik Çürütme Sürecinin Yaşam Döngüsü Değerlendirmesi
References
Kaza S, Yao LC, Bhada-Tata P, et al. What a Waste 2.0: A Global Snapshot of Solid Waste Management to 2050. Washington, DC: World Bank; 2018.
Sharma K, Jain S. Municipal solid waste generation, composition, and management: The global scenario. Soc Responsib J; 2020;16(6):917-48.
Guinée JB, Heijungs R, Huppes G, et al. Life cycle assessment: Past, present, and future. Environ Sci Technol.; 2011;45(1):90–6.
Fava JA. A technical framework for life cycle assessment: Workshop report; August 18-23, 1990. Pensacola: SETAC; 1991.
Özeler D, Yetiş Ü, Demirer GN. Life cycle assessment of municipal solid waste management methods: Ankara case study. Environ Int.; 2006;32(3):405-11.
ISO. Environmental management—Life cycle assessment—Principles and framework. ISO 14040. Geneva: International Organization for Standardization; 2006.
USEPA. Life Cycle Assessment: Principles and Practice. OHIO: Scientific Applications International Corporation (SAIC); 2006. https://nepis.epa.gov/Exe/ZyPDF.cgi/P1000L86.PDF?Dockey=P1000L86.PDF. [Accessed:25th November 2024].
European Commission. International Reference Life Cycle Data System (ILCD) Handbook—Recommendations for Life Cycle Impact Assessment in the European context. Brussels: Joint Research Centre—Institute for Environment and Sustainability; 2011. https://publications.jrc.ec.europa.eu/repository/bitstream/JRC61049/jrc61049_ilcd%20handbook%20final.pdf. [Accessed: 24th November 2024]
Beyene HD, Werkneh AA, Ambaye TG. Current updates on waste to energy (WtE) technologies: A review. Renew Energy Focus; 2018;24:1-10. Fan YV, Klemeš JJ, Perry S, et al. Anaerobic digestion of lignocellulosic waste: Environmental impact and economic assessment. J Environ Manage; 2019;231:352-63.
Fan YV, Klemeš JJ, Lee CT, et al. Anaerobic digestion of municipal solid waste: Energy and carbon emission footprint. J Environ Manage; 2018;223:888-97.
Dastjerdi B, Strezov V, Rajaeifar M, et al. A systematic review on life cycle assessment of different waste to energy valorization technologies. J Clean Prod; 2021;290:125747.
Guinée JB, Oers L, Koning A, et al. Life cycle approaches for Conservation Agriculture. Leiden: CML Institute of Environmental Sciences; 2006.
Roy P, Nei D, Orikasa T, et al. A review of life cycle assessment (LCA) on some food products. J Food Eng; 2009;90(1):1-10.
Klüppel HJ. Goal and scope definition and life cycle inventory analysis. Int J Life Cycle Assess; 1997;2(1):5-8.
LCA Software (2024). Find the best software to make a Life Cycle Assessment. LCA Software Directory. https://lca-software.org [Accessed:16th November 2024].
Mendes MR, Aramaki T, Hanaki K. Comparison of the environmental impact of incineration and landfilling in São Paulo City as determined by LCA. Resour Conserv Recycl.; 2004;41(1):47-63.
Irbaş E, Dadaşer-Çelik F. Evsel katı atık yönetim senaryolarının yaşam döngüsü analizi: Melikgazi ilçesi (Kayseri) örneği. Doğal Afet ve Çevre Dergisi; 2021;7(2):266-77.
EPA. Inventory of U.S. Greenhouse Gas Emissions and Sinks: 1990-2021-Main Report. Washington, DC: Environmental Protection Agency; 2023. https://www.epa.gov/ghgemissions/inventory-us-greenhouse-gas-emissions-and-sinks-1990-2021. [Accessed:18th November 2024].
Mavakala BK, Le Faucheur S, Mulaji CK, et al. Leachates draining from controlled municipal solid waste landfill: Detailed geochemical characterization and toxicity tests. Waste Manage; 2016;55:238-48.
Adghim M, Abdallah M, Saad S, et al. Comparative life cycle assessment of anaerobic co-digestion for dairy waste management in large-scale farms. J Clean Prod.; 2020;256:120320.
Staley B, Boxman S. Data & Policy Program: Data driven analysis to drive sustainable materials management. Toronto: Partners in Project Green; 2021. https://partnersinprojectgreen.com/wp-content/uploads/2023/03/Consultant-Report_Overview-Canadian-ICI-Organic-Waste-Practices_Spring-2021.pdf. [Accessed:26th November 2024].
De Groof V, Coma M, Arnot T, et al. Medium chain carboxylic acids from complex organic feedstocks by mixed culture fermentation. Molecules. 2019;24(3):398.
Guillaume A, Appels L, Kočí V. Life cycle assessment of municipal biowaste management—A Czech case study. J Environ Manage; 2023;339:117894.
Wang J, Okopi SI, Ma H, et al. Life cycle assessment of the integration of anaerobic digestion and pyrolysis for treatment of municipal solid waste. Bioresour Technol.; 2021;338:125486.
Mancini E, Arzoumanidis I, Raggi A. Evaluation of potential environmental impacts related to two organic waste treatment options in Italy. J Clean Prod.; 2019;214:927–38.
Mayer F, Bhandari R, Gäth SA, et al. Economic and environmental life cycle assessment of organic waste treatment by means of incineration and biogasification: Is source segregation of biowaste justified in Germany?. Sci Total Environ.; 2020;721:137731.
Moukazis I, Pellera FM, Gidarakos E. Slaughterhouse by-products treatment using anaerobic digestion. Waste Manage.; 2018;71:652–62.
Holm-Nielsen JB, Al Seadi T, Oleskowicz-Popiel P. The future of anaerobic digestion and biogas utilization. Bioresour Technol.; 2009;100(22):5478–84.
Yasar A, Rasheed R, Tabinda AB, et al. Life cycle assessment of a medium commercial scale biogas plant and nutritional assessment of effluent slurry. Renew Sustain Energy Rev.; 2017;67:364–71.
Wang S, Sahoo K, Jena U, et al. Life-cycle assessment of treating slaughterhouse waste using anaerobic digestion systems. J Clean Prod.; 2021;292:126038.
Balcioglu G, Jeswani H, Azapagic A. Evaluating the environmental and economic sustainability of energy from anaerobic digestion of different feedstocks in Turkey. Sustain Prod Consum.; 2022;32:924-41.
Nayal F, Mammadov A, Ciliz N. Environmental assessment of energy generation from agricultural and farm waste through anaerobic digestion. J Environ Manage.; 2016;184:389-99.
Zhou H, Wei L, Wang D, et al. Environmental impacts and optimizing strategies of municipal sludge treatment and disposal routes in China based on life cycle analysis. Environ Int.; 2022;166:107378.
Chen R, Yuan S, Chen S, et al. Life-cycle assessment of two sewage sludge-to-energy systems based on different sewage sludge characteristics: Energy balance and greenhouse gas-emission footprint analysis. J Environ Sci.; 2022;111:380-91.
Lee E, Oliveira DSBL, Oliveira LSB, et al. Comparative environmental and economic life cycle assessment of high solids anaerobic co-digestion for biosolids and organic waste management. Water Res.; 2020;171:115443.
Sharma K, Jain S. Municipal solid waste generation, composition, and management: The global scenario. Soc Responsib J; 2020;16(6):917-48.
Guinée JB, Heijungs R, Huppes G, et al. Life cycle assessment: Past, present, and future. Environ Sci Technol.; 2011;45(1):90–6.
Fava JA. A technical framework for life cycle assessment: Workshop report; August 18-23, 1990. Pensacola: SETAC; 1991.
Özeler D, Yetiş Ü, Demirer GN. Life cycle assessment of municipal solid waste management methods: Ankara case study. Environ Int.; 2006;32(3):405-11.
ISO. Environmental management—Life cycle assessment—Principles and framework. ISO 14040. Geneva: International Organization for Standardization; 2006.
USEPA. Life Cycle Assessment: Principles and Practice. OHIO: Scientific Applications International Corporation (SAIC); 2006. https://nepis.epa.gov/Exe/ZyPDF.cgi/P1000L86.PDF?Dockey=P1000L86.PDF. [Accessed:25th November 2024].
European Commission. International Reference Life Cycle Data System (ILCD) Handbook—Recommendations for Life Cycle Impact Assessment in the European context. Brussels: Joint Research Centre—Institute for Environment and Sustainability; 2011. https://publications.jrc.ec.europa.eu/repository/bitstream/JRC61049/jrc61049_ilcd%20handbook%20final.pdf. [Accessed: 24th November 2024]
Beyene HD, Werkneh AA, Ambaye TG. Current updates on waste to energy (WtE) technologies: A review. Renew Energy Focus; 2018;24:1-10. Fan YV, Klemeš JJ, Perry S, et al. Anaerobic digestion of lignocellulosic waste: Environmental impact and economic assessment. J Environ Manage; 2019;231:352-63.
Fan YV, Klemeš JJ, Lee CT, et al. Anaerobic digestion of municipal solid waste: Energy and carbon emission footprint. J Environ Manage; 2018;223:888-97.
Dastjerdi B, Strezov V, Rajaeifar M, et al. A systematic review on life cycle assessment of different waste to energy valorization technologies. J Clean Prod; 2021;290:125747.
Guinée JB, Oers L, Koning A, et al. Life cycle approaches for Conservation Agriculture. Leiden: CML Institute of Environmental Sciences; 2006.
Roy P, Nei D, Orikasa T, et al. A review of life cycle assessment (LCA) on some food products. J Food Eng; 2009;90(1):1-10.
Klüppel HJ. Goal and scope definition and life cycle inventory analysis. Int J Life Cycle Assess; 1997;2(1):5-8.
LCA Software (2024). Find the best software to make a Life Cycle Assessment. LCA Software Directory. https://lca-software.org [Accessed:16th November 2024].
Mendes MR, Aramaki T, Hanaki K. Comparison of the environmental impact of incineration and landfilling in São Paulo City as determined by LCA. Resour Conserv Recycl.; 2004;41(1):47-63.
Irbaş E, Dadaşer-Çelik F. Evsel katı atık yönetim senaryolarının yaşam döngüsü analizi: Melikgazi ilçesi (Kayseri) örneği. Doğal Afet ve Çevre Dergisi; 2021;7(2):266-77.
EPA. Inventory of U.S. Greenhouse Gas Emissions and Sinks: 1990-2021-Main Report. Washington, DC: Environmental Protection Agency; 2023. https://www.epa.gov/ghgemissions/inventory-us-greenhouse-gas-emissions-and-sinks-1990-2021. [Accessed:18th November 2024].
Mavakala BK, Le Faucheur S, Mulaji CK, et al. Leachates draining from controlled municipal solid waste landfill: Detailed geochemical characterization and toxicity tests. Waste Manage; 2016;55:238-48.
Adghim M, Abdallah M, Saad S, et al. Comparative life cycle assessment of anaerobic co-digestion for dairy waste management in large-scale farms. J Clean Prod.; 2020;256:120320.
Staley B, Boxman S. Data & Policy Program: Data driven analysis to drive sustainable materials management. Toronto: Partners in Project Green; 2021. https://partnersinprojectgreen.com/wp-content/uploads/2023/03/Consultant-Report_Overview-Canadian-ICI-Organic-Waste-Practices_Spring-2021.pdf. [Accessed:26th November 2024].
De Groof V, Coma M, Arnot T, et al. Medium chain carboxylic acids from complex organic feedstocks by mixed culture fermentation. Molecules. 2019;24(3):398.
Guillaume A, Appels L, Kočí V. Life cycle assessment of municipal biowaste management—A Czech case study. J Environ Manage; 2023;339:117894.
Wang J, Okopi SI, Ma H, et al. Life cycle assessment of the integration of anaerobic digestion and pyrolysis for treatment of municipal solid waste. Bioresour Technol.; 2021;338:125486.
Mancini E, Arzoumanidis I, Raggi A. Evaluation of potential environmental impacts related to two organic waste treatment options in Italy. J Clean Prod.; 2019;214:927–38.
Mayer F, Bhandari R, Gäth SA, et al. Economic and environmental life cycle assessment of organic waste treatment by means of incineration and biogasification: Is source segregation of biowaste justified in Germany?. Sci Total Environ.; 2020;721:137731.
Moukazis I, Pellera FM, Gidarakos E. Slaughterhouse by-products treatment using anaerobic digestion. Waste Manage.; 2018;71:652–62.
Holm-Nielsen JB, Al Seadi T, Oleskowicz-Popiel P. The future of anaerobic digestion and biogas utilization. Bioresour Technol.; 2009;100(22):5478–84.
Yasar A, Rasheed R, Tabinda AB, et al. Life cycle assessment of a medium commercial scale biogas plant and nutritional assessment of effluent slurry. Renew Sustain Energy Rev.; 2017;67:364–71.
Wang S, Sahoo K, Jena U, et al. Life-cycle assessment of treating slaughterhouse waste using anaerobic digestion systems. J Clean Prod.; 2021;292:126038.
Balcioglu G, Jeswani H, Azapagic A. Evaluating the environmental and economic sustainability of energy from anaerobic digestion of different feedstocks in Turkey. Sustain Prod Consum.; 2022;32:924-41.
Nayal F, Mammadov A, Ciliz N. Environmental assessment of energy generation from agricultural and farm waste through anaerobic digestion. J Environ Manage.; 2016;184:389-99.
Zhou H, Wei L, Wang D, et al. Environmental impacts and optimizing strategies of municipal sludge treatment and disposal routes in China based on life cycle analysis. Environ Int.; 2022;166:107378.
Chen R, Yuan S, Chen S, et al. Life-cycle assessment of two sewage sludge-to-energy systems based on different sewage sludge characteristics: Energy balance and greenhouse gas-emission footprint analysis. J Environ Sci.; 2022;111:380-91.
Lee E, Oliveira DSBL, Oliveira LSB, et al. Comparative environmental and economic life cycle assessment of high solids anaerobic co-digestion for biosolids and organic waste management. Water Res.; 2020;171:115443.
Pages
79-98
Published
January 13, 2025
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