This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Analysis of the state of municipal waste management in the Municipality of Krakow, https://www.bip.krakow.pl/zalaczniki/dokumenty/n/271689/karta.Analysis of the state of municipal waste management in the Municipality of Krakowhttps://www.bip.krakow.pl/zalaczniki/dokumenty/n/271689/kartaSearch in Google Scholar
Reports of the Mayor of the City of Krakow on the implementation of tasks in the field of municipal waste management https://www.bip.krakow.pl/?sub_dok_id=60884.Reports of the Mayor of the City of Krakow on the implementation of tasks in the field of municipal waste managementhttps://www.bip.krakow.pl/?sub_dok_id=60884Search in Google Scholar
Act on maintaining cleanliness and order in municipalities (Journal of Laws 2020.1439) of 2020.08.24.Act on maintaining cleanliness and order in municipalities (Journal of Laws 2020.1439) of 2020.08.24Search in Google Scholar
Waste Act (Journal of Laws 2020.797) of May 2020, 04.Waste Act (Journal of Laws 2020.797) of May 2020, 04Search in Google Scholar
Christensen, T. (2011). Solid Waste Technology and Management, John Wiley & Sons, ISBN 9781405175173.ChristensenT.2011Solid Waste Technology and ManagementJohn Wiley & SonsISBN 978140517517310.1002/9780470666883Search in Google Scholar
Cossu, R. (2009). From triangles to cycles, Waste Management, 29(12), 2915-2917. DOI: 10.1016/j.wasman.2009.09.002.CossuR.2009From triangles to cyclesWaste Management291229152917DOI:10.1016/j.wasman.2009.09.002Open DOISearch in Google Scholar
den Boer, E., den Boer, J., & Jager, J. (2005). Waste management planning and optimization, Ibidem, Stuttgart.den BoerE.den BoerJ.JagerJ.2005Waste management planning and optimization, IbidemStuttgartSearch in Google Scholar
Ławińska, K., Szufa, S., Obraniak, A., Olejnik, T., Siuda, R., Kwiatek, J., & Ogrodowczyk D. (2020). Disc Granulation Process of Carbonation Lime Mud as a Method of Post-Production Waste Management, Energies, 13, 3419, doi:10.3390/en13133419ŁawińskaK.SzufaS.ObraniakA.OlejnikT.SiudaR.KwiatekJ.OgrodowczykD.2020Disc Granulation Process of Carbonation Lime Mud as a Method of Post-Production Waste ManagementEnergies133419doi:10.3390/en13133419Open DOISearch in Google Scholar
Garfe, M., Tondelli, S., & Bonoli, A. (2009). Multicriteria decision analysis for waste management in Saharawi refugee camps, Waste Management, 29, 2729–2739.GarfeM.TondelliS.BonoliA.2009Multicriteria decision analysis for waste management in Saharawi refugee campsWaste Management292729273910.1016/j.wasman.2009.05.019Search in Google Scholar
Generowicz, A., Kowalski, Z., Banach, M., & Makara, A (2012). A Glance at the World, Waste Management, 32(2), 349–350.GenerowiczA.KowalskiZ.BanachM.MakaraA2012A Glance at the WorldWaste Management32234935010.1016/j.wasman.2011.10.027Search in Google Scholar
Gaska, K., Generowicz, A., Zimoch, I., Ciuła, J., & Siedlarz, D. (2018). A GIS based graph oriented algorithmic model for poly-optimization of waste management system, Architecture Civil Environmental Engineering ACEE, 11(4), 151–159.GaskaK.GenerowiczA.ZimochI.CiułaJ.SiedlarzD.2018A GIS based graph oriented algorithmic model for poly-optimization of waste management systemArchitecture Civil Environmental Engineering ACEE11415115910.21307/acee-2018-061Search in Google Scholar
Wilson, E., McDougall, F., & Willmore, J. (2004). Euro-trash: searching Europe for a more sustainable approach to waste management, Resources, Conservation and Recycling, 31(4), 327–346.WilsonE.McDougallF.WillmoreJ.2004Euro-trash: searching Europe for a more sustainable approach to waste managementResources, Conservation and Recycling31432734610.1016/S0921-3449(00)00089-6Search in Google Scholar
Morrissey, A.J., & Browne, J. (2004). Waste management models and their application to sustainable waste management, Waste Management, 24, 297–308.MorrisseyA.J.BrowneJ.2004Waste management models and their application to sustainable waste managementWaste Management2429730810.1016/j.wasman.2003.09.005Search in Google Scholar
Acerbi, F., & Taisch, M. (2020). A literature review on circular economy adoption in the manufacturing sector, Journal of Cleaner Production, 283, 123086. https://doi.org/10.1016/j.jclepro.2020.123086AcerbiF.TaischM.2020A literature review on circular economy adoption in the manufacturing sectorJournal of Cleaner Production283123086https://doi.org/10.1016/j.jclepro.2020.12308610.1016/j.jclepro.2020.123086Search in Google Scholar
Kajda-Szcześniak, M., & Jaworski, T. (2017). Comparison of fuel and emission properties of scrap wood and waste fuels. Przemysł Chemiczny, 96(10), 2121–2123.Kajda-SzcześniakM.JaworskiT.2017Comparison of fuel and emission properties of scrap wood and waste fuelsPrzemysł Chemiczny961021212123Search in Google Scholar
Balcerzak, W., Generowicz, A., & Mucha, Z. (2014). Application of Multi-Criteria Analysis for Selection of Reclamation Method for Hazardous Waste Landfill, Polish Journal of Environmental Studies, 23(3), 983–987.BalcerzakW.GenerowiczA.MuchaZ.2014Application of Multi-Criteria Analysis for Selection of Reclamation Method for Hazardous Waste LandfillPolish Journal of Environmental Studies233983987Search in Google Scholar
Gaska, K., & Generowicz, A. (2020). SMART Computational Solutions for the Optimization of Selected Technology Processes as an Innovation and Progress in Improving Energy Efficiency of Smart Cities – A Case Study, Energies, 13, 3338.GaskaK.GenerowiczA.2020SMART Computational Solutions for the Optimization of Selected Technology Processes as an Innovation and Progress in Improving Energy Efficiency of Smart Cities – A Case StudyEnergies13333810.3390/en13133338Search in Google Scholar
Kowalski, D., Kowalska, B., Bławucki, T., Suchorab, P., & Gaska, K. (2019). Impact Assessment of Distribution Network Layout on the Reliability of Water Delivery. Water, 11, 480.KowalskiD.KowalskaB.BławuckiT.SuchorabP.GaskaK.2019Impact Assessment of Distribution Network Layout on the Reliability of Water DeliveryWater1148010.3390/w11030480Search in Google Scholar
Gubanova, E., Kupinets, L., Deforzh, H., Koval, V., & Gaska, K. (2019). Recycling of polymer waste in the context of developing circular economy. Architecture Civil Engineering Environment ACEE, 12(4), 99–108, DOI: 10.21307/ACEE-2019-055.GubanovaE.KupinetsL.DeforzhH.KovalV.GaskaK.2019Recycling of polymer waste in the context of developing circular economyArchitecture Civil Engineering Environment ACEE12499108DOI: 10.21307/ACEE-2019-055Open DOISearch in Google Scholar
Koval, V., Mikhno, I., Hajduga, G., & Gaska, K. (2019). Economic efficiency of biogas generation from food product waste, E3S Web of Conferences, 100, 00039. DOI: 10.1051/e3sconf/201910000039.KovalV.MikhnoI.HajdugaG.GaskaK.2019Economic efficiency of biogas generation from food product wasteE3S Web of Conferences10000039DOI:10.1051/e3sconf/201910000039Open DOISearch in Google Scholar
Ciuła, J., Kozik, V., Generowicz, A., Gaska, K., Bak, A., Paździor, M., & Barbusiński, K. (2020). Emission and Neutralization of Methane from a Municipal Landfill-Parametric Analysis, Energies, 13, 6254, DOI: 10.3390/en13236254.CiułaJ.KozikV.GenerowiczA.GaskaK.BakA.PaździorM.BarbusińskiK.2020Emission and Neutralization of Methane from a Municipal Landfill-Parametric AnalysisEnergies136254DOI: 10.3390/en13236254Open DOISearch in Google Scholar
Ciuła J., Gaska K., Iljuczonek Ł., Generowicz A., & Koval V. (2019). Energy efficiency economics of conversion of biogas from the fermentation of sewage sludge to biomethane as a fuel for automotive vehicles. Architecture Civil Engineering Environment ACEE, 12(2), 131–140, DOI:10.21307/ACEE-2019-029.CiułaJ.GaskaK.IljuczonekŁ.GenerowiczA.KovalV.2019Energy efficiency economics of conversion of biogas from the fermentation of sewage sludge to biomethane as a fuel for automotive vehiclesArchitecture Civil Engineering Environment ACEE122131140doi:10.21307/ACEE-2019-029Open DOISearch in Google Scholar
Werle, S. (2012). A reburning process using sewage sludge-derived syngas, Chemical Papers, 66(2), 99–107.WerleS.2012A reburning process using sewage sludge-derived syngasChemical Papers6629910710.2478/s11696-011-0098-ySearch in Google Scholar
Jaworski, T., & Kajda-Szcześniak, M. (2019). Research on the kinetics of pyrolysis of wood-based panels in terms of waste management. Energies, 12(19), 1–13.JaworskiT.Kajda-SzcześniakM.2019Research on the kinetics of pyrolysis of wood-based panels in terms of waste managementEnergies121911310.3390/en12193705Search in Google Scholar
Jaworski, T., Pikoń, K., Kajda-Szcześniak, M. (2018). Experimental and theoretical modeling of waste combustion in a chamber with a moving grate, Chemical and Process Engineering, 39(1), 3–14.JaworskiT.PikońK.Kajda-SzcześniakM.2018Experimental and theoretical modeling of waste combustion in a chamber with a moving grateChemical and Process Engineering391314Search in Google Scholar