This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Council Directive 2008/98/EC of the European Parliament and of the Council of 19 November 2008 on waste and repealing certain Directives (OJ EU.L.08.312.3).Search in Google Scholar
Council Directive 2018/851 of the European Parliament and of the Council (EU) of 30 May 2018 amending Directive 2008/98/EC on waste.Search in Google Scholar
Council Directive 1999/31/EC, on the landfill of waste (OJ L 182, as amended).Search in Google Scholar
Gaska, K., Generowicz, A., Zimoch I., Ciuła, J., Iwanicka, Z. (2017a). A high-performance computing (HPC) based integrated multithreaded model predictive control (MPC) for water supply networks, Architecture Civil Engineering Environment, 4, 141–151.GaskaK.GenerowiczA.ZimochI.CiułaJ.IwanickaZ.2017aA high-performance computing (HPC) based integrated multithreaded model predictive control (MPC) for water supply networks414115110.21307/acee-2018-061Search in Google Scholar
Gaska, K., & Generowicz, A. (2017b). Advanced computational methods in component-oriented modelling of municipal solid waste incineration processes, Architecture Civil Engineering Environment, 10(1), 117–130.GaskaK.GenerowiczA.2017bAdvanced computational methods in component-oriented modelling of municipal solid waste incineration processes10111713010.21307/acee-2017-012Search in Google Scholar
Czop, M., & Kajda-Szczes niak, M. (2013). Evaluation of Basic Fuel Properties of Waste from Renovation and Construction Selected from Municipal Wastes. Rocznik Ochrona S rodowiska, 15, 1426–1440.CzopM.Kajda-Szczes niakM.2013Evaluation of Basic Fuel Properties of Waste from Renovation and Construction Selected from Municipal Wastes1514261440Search in Google Scholar
Seveyn, H., & Eder, P. (2013). End-of-waste criteria for biodegradable waste subjected to biological treatment (compost & digestate), Technical proposals, Final report European Commission.SeveynH.EderP.2013Search in Google Scholar
https://stat.gov.pl/obszary-tematyczne/srodowisko-energia/srodowisko/ochrona-srodowiska-2018,1,19.htmlSearch in Google Scholar
Preparatory study on food waste across EU27, Technical report – 2010-054, European Communities (2011).2011Search in Google Scholar
Jędrczak, A, & Haziak, K. (2005). Determining the requirements for composting and other biological waste treatment methods, Zielona Góra, http://www.toensmeier.pl/index.php/publisher/file/action/view/frmAssetID/16 (accessed: 25.11.2019).JędrczakAHaziakK.2005Determining the requirements for composting and other biological waste treatment methodshttp://www.toensmeier.pl/index.php/publisher/file/action/view/frmAssetID/16 (accessed: 25.11.2019)Search in Google Scholar
Jędrczak, A. (2008). Biological waste treatment, Warszawa. Wydawnictwo Naukowe PWN.JędrczakA.2008WarszawaWydawnictwo Naukowe PWNSearch in Google Scholar
Sonesson, U., Björklund, A., Carlsson, M., Dalemo, M. (2000). Environmental and economic analysis of management systems for biodegradable waste, Resources, Conservation and Recycling, 28(1–2), 29–53.SonessonU.BjörklundA.CarlssonM.DalemoM.2000Environmental and economic analysis of management systems for biodegradable waste281–2295310.1016/S0921-3449(99)00029-4Search in Google Scholar
Garcia, A.J., Esteban, M.B., Marquez, M.C., Ramos, P. (2005). Biodegradable municipal solid waste: Characterization and potential use as animal feed-stuffs, Waste Management, 25(8), 780–787.GarciaA.J.EstebanM.B.MarquezM.C.RamosP.2005Biodegradable municipal solid waste: Characterization and potential use as animal feed-stuffs25878078710.1016/j.wasman.2005.01.006Search in Google Scholar
Gómez Palacios, J.M., Ruiz de Apodaca, A., Rebollo, C., Azcárate, J. (2002). European policy on biodegradable waste: a management perspective, Water Science Technology 46(10), 311–318.Gómez PalaciosJ.M.Ruiz de ApodacaA.RebolloC.AzcárateJ.2002European policy on biodegradable waste: a management perspective461031131810.2166/wst.2002.0362Search in Google Scholar
Koval, V., Petrashevska, A.D., Popona, O., Mikhno, I., Gaska, K. (2019). Methodology of ecodiagnostic on example of rural areas, Architecture Civil Engineering Environment 12(1), 139–144.KovalV.PetrashevskaA.D.PoponaO.MikhnoI.GaskaK.2019Methodology of ecodiagnostic on example of rural areas12113914410.21307/acee-2019-013Search in Google Scholar
Werle, S. (2015). Sewage sludge-to-energy management in eastern Europe: a Polish perspective, Ecological chemistry and engineering S 22(3), 459–469.WerleS.2015Sewage sludge-to-energy management in eastern Europe: a Polish perspective22345946910.1515/eces-2015-0027Search in Google Scholar
Werle, S. (2014). Impact of feedstock properties and operating conditions on sewage sludge gasification in a fixed bed gasifier, Waste Management & Research 32(10), 954–960.WerleS.2014Impact of feedstock properties and operating conditions on sewage sludge gasification in a fixed bed gasifier321095496010.1177/0734242X14535654Search in Google Scholar
Werle, S., & Dudziak, M. (2014). Gaseous fuels production from dried sewage sludge via air gasification, Waste Management & Research 32(7), 601–607.WerleS.DudziakM.2014Gaseous fuels production from dried sewage sludge via air gasification32760160710.1177/0734242X14536460Search in Google Scholar
Smol, M., & Generowicz, A. (2018). Tretament of the municipal landfill leachate including selection of the best management solution, Desalination and Water Treatment, 117, 229–238.SmolM.GenerowiczA.2018Tretament of the municipal landfill leachate including selection of the best management solution11722923810.5004/dwt.2018.22468Search in Google Scholar
White, P.R., Franke, M., Hindle, P. (1996). Integrated Solid Waste Management. A Life Cycle Inventory. London, McGraw-Hill.WhiteP.R.FrankeM.HindleP.1996LondonMcGraw-HillSearch in Google Scholar
McDougall, F. (2001). Life Cycle Tools for Integrated Waste Management systems, Warmer Bulletin, 76(4).McDougallF.2001Life Cycle Tools for Integrated Waste Management systems76410.1002/9780470999677Search in Google Scholar
McDougall, F., & Hruska, J.P. (2000). The use of Life Cycle Inventory tools to support an integrated approach to solid waste management, Waste Management & Research, 18(6), 590–594.McDougallF.HruskaJ.P.2000The use of Life Cycle Inventory tools to support an integrated approach to solid waste management18659059410.1034/j.1399-3070.2000.00159.xSearch in Google Scholar
McDougall, F. (2001). Life Cycle Inventory tools: supporting the development of sustainable solid waste management systems, Corporate Environmental Strategy 8(2), 142–147.McDougallF.2001Life Cycle Inventory tools: supporting the development of sustainable solid waste management systems8214214710.1016/S1066-7938(01)00083-5Search in Google Scholar
McDougall, F., & Ryu, Y.K. (2002). The Role of Landfill Within A Sustainable Solid Waste Management Strategy, Proceedings of the 2nd Asian Pacific Landfill Symposium, Seoul, Korea.McDougallF.RyuY.K.2002The Role of Landfill Within A Sustainable Solid Waste Management StrategySeoul, KoreaSearch in Google Scholar
McDougall, F.R., Hruska J., (2002). The use of Life Cycle Invertory tools to support an integrated approach to solid waste management, Waste Management & Research 18(6), 590–594.McDougallF.R.HruskaJ.2002The use of Life Cycle Invertory tools to support an integrated approach to solid waste management18659059410.1034/j.1399-3070.2000.00159.xSearch in Google Scholar
ORyu, Y.K., McDougall, F.R., Peng, C-G., Arakaki, T., Ahn, J.W. (2000). Integrated Waste Management and the Tool of Life Cycle Inventory: A Route to Sustainable Waste Management for Asia, Korean Journal of LCA, 2, 2, 41–48.ORyuY.K.McDougallF.R.PengC-G.ArakakiT.AhnJ.W.2000Integrated Waste Management and the Tool of Life Cycle Inventory: A Route to Sustainable Waste Management for Asia224148Search in Google Scholar
den Boer, E., den Boer, J., Jager, J. (2005). Waste management planning and optimization. Stuttgart. Ibidem.den BoerE.den BoerJ.JagerJ.2005StuttgartIbidemSearch in Google Scholar
Generowicz, A., Kowalski, Z., Kulczycka, J., Banach, M. (2011). Assessment of technological solutions of municipal waste management using technology quality indicators and multicriteria analysis, Przemysł Chemiczny 90(5), 747–753.GenerowiczA.KowalskiZ.KulczyckaJ.BanachM.2011Assessment of technological solutions of municipal waste management using technology quality indicators and multicriteria analysis905747753Search in Google Scholar
Kowalski, Z., Kulczycka, J., Góralczyk, M. (2007). Ecological life cycle assessment of manufacturing processes. Warszawa. Wydawnictwo Naukowe PWN.KowalskiZ.KulczyckaJ.GóralczykM.2007WarszawaWydawnictwo Naukowe PWNSearch in Google Scholar
Cossu, R. (2009). From triangles to cycles, Waste Management, 29(12), 2915–2917.CossuR.2009From triangles to cycles29122915291710.1016/j.wasman.2009.09.002Search in Google Scholar
Babalola, M.A. (2015). A Multi-Criteria Decision Analysis of Waste Treatment Options for Food and Biodegradable Waste Management in Japan, Environments 2, 471–488; doi:10.3390/environments2040471.BabalolaM.A.2015A Multi-Criteria Decision Analysis of Waste Treatment Options for Food and Biodegradable Waste Management in Japan2471488doi:10.3390/environments2040471Open DOISearch in Google Scholar
Generowicz, A., Gaska, K., Hajduga, G. (2018). Multi-criteria Analysis of the Waste Management System in a Metropolitan Area, E3S Web of Conferences 44, 00043, EKODOK2018, 10th Conference on Interdisciplinary Problems in Environmental Protection and Engineering, doi: 10.1051/e3sconf/20184400043.GenerowiczA.GaskaK.HajdugaG.2018Multi-criteria Analysis of the Waste Management System in a Metropolitan Area4400043EKODOK2018, 10th Conference on Interdisciplinary Problems in Environmental Protection and EngineeringDOI: 10.1051/e3sconf/20184400043Open DOISearch in Google Scholar