This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Kowalski, Z., Generowicz, A., Makara, A., Kulczycka, J. (2015). Evaluation of Municipal Waste Landfilling using the Technology Quality Assessment Method. Environment Protection Engineering, 41(4), 167–179.KowalskiZ.GenerowiczA.MakaraA.KulczyckaJ.2015Evaluation of Municipal Waste Landfilling using the Technology Quality Assessment Method41416717910.37190/epe150413Search 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, 2(4), 99–108.GubanovaE.KupinetsL.DeforzhH.KovalV.GaskaK.2019Recycling of polymer waste in the context of developing circular economy249910810.21307/acee-2019-055Search 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, 16-18.04.2018, 10th Conference on Interdisciplinary Problems in Environmental Protection and Engineering.GenerowiczA.GaskaK.HajdugaG.201810th Conference on Interdisciplinary Problems in Environmental Protection and Engineering10.1051/e3sconf/20184400043Search in Google Scholar
Vaverková, M. B. (2019). Landfill Impacts on the Environment. Review Geosciences, 9(10), 431.VaverkováM. B.2019Landfill Impacts on the Environment91043110.3390/geosciences9100431Search in Google Scholar
Madon, I., Drev, D., Likar, J. (2019). Long-term risk assessments comparing environmental performance of different types of sanitary landfills. Waste Management, 96, 96–107.MadonI.DrevD.LikarJ.2019Long-term risk assessments comparing environmental performance of different types of sanitary landfills969610710.1016/j.wasman.2019.07.001Search in Google Scholar
Brągoszewska, E., Biedroń, I., Hryb, W. (2019). Air quality and potential health risk impacts of exposure to bacterial aerosol in a waste sorting plant located in the mountain region of Southern Poland, around which there are numerous rural areas. Atmosphere, 10(7), 360, 1–11.BrągoszewskaE.BiedrońI.HrybW.2019Air quality and potential health risk impacts of exposure to bacterial aerosol in a waste sorting plant located in the mountain region of Southern Poland, around which there are numerous rural areas10736011110.3390/atmos10070360Search in Google Scholar
Generowicz, N., Kulczycka, J., Partyka, M., Sługa, K. (2021). Key Challenges and Opportunities for an Effective Supply Chain System in the Catalyst Recycling Market–A Case Study of Poland. Resources 10(2), 13.GenerowiczN.KulczyckaJ.PartykaM.SługaK.2021Key Challenges and Opportunities for an Effective Supply Chain System in the Catalyst Recycling Market–A Case Study of Poland1021310.3390/resources10020013Search in Google Scholar
Melnyk, A., Kuklińska, K., Wolska, L., Namieśnik, J. (2014). Chemical pollution and toxicity of water samples from stream receiving leachate from controlled municipal solid waste (MSW) landfill. Environmental Research, 135, 253–261.MelnykA.KuklińskaK.WolskaL.NamieśnikJ.2014Chemical pollution and toxicity of water samples from stream receiving leachate from controlled municipal solid waste (MSW) landfill13525326110.1016/j.envres.2014.09.010Search in Google Scholar
Gworek, B., Dmuchowski, W., Koda, E., Marecka, M., Baczewska, A.H., Brągoszewska, P., Sieczka, A., Osiński, P. (2016). Impact of the Municipal Solid Waste Łubna Landfill on Environmental Pollution by Heavy Metals. Water, 8(10), 470.GworekB.DmuchowskiW.KodaE.MareckaM.BaczewskaA.H.BrągoszewskaP.SieczkaA.OsińskiP.2016Impact of the Municipal Solid Waste Łubna Landfill on Environmental Pollution by Heavy Metals81047010.3390/w8100470Search in Google Scholar
Smol, M.; Włodarczyk-Makuła, M,; Skowron-Grabowska B. (2017). PAHs removal from municipal landfill leachate using integrated membrane system aspect of legal regulation, Desalination Water Treatment, 69, 335–343.SmolM.; Włodarczyk-MakułaM,; Skowron-GrabowskaB.2017PAHs removal from municipal landfill leachate using integrated membrane system aspect of legal regulation6933534310.5004/dwt.2017.20241Search in Google Scholar
Brandl, H. (1992). Mineral liners for hazardous containment. Géotechnique, 42, 57–65.BrandlH.1992Mineral liners for hazardous containment42576510.1680/geot.1992.42.1.57Search in Google Scholar
Rowe, R. K. (2005). Long-term performance of contaminant barrier system. Géotechnique, 55, 631–678.RoweR. K.2005Long-term performance of contaminant barrier system5563167810.1680/geot.2005.55.9.631Search in Google Scholar
Kowalski, S. (2016). Application of dimensional analysis in the fretting wear studies. Journal of the Balkan Tribological Association, 22(4-I), 3823–3835.KowalskiS.2016Application of dimensional analysis in the fretting wear studies224-I38233835Search in Google Scholar
Kamura K., Hara Y., Inanc B., Yamada M., Inuoe Y., Ono Y. (2005). Effectiveness of resistivity monitoring for interpreting temporal changes in landfill properties. J. Mater. Cycles Waste Manag., 2(7), 66–70.KamuraK.HaraY.InancB.YamadaM.InuoeY.OnoY.2005Effectiveness of resistivity monitoring for interpreting temporal changes in landfill properties27667010.1007/s10163-005-0128-3Search in Google Scholar
Kowalski, S. (2020). Failure analysis of the elements of a forced-in joint operating in rotational bending conditions. Engineering Failure Analysis, 118, 104864.KowalskiS.2020Failure analysis of the elements of a forced-in joint operating in rotational bending conditions11810486410.1016/j.engfailanal.2020.104864Search in Google Scholar
Kowalski, S., Cygnar, M., Cieślikowski, B. (2020). Analysis of the application of ZrN coatings for the mitigation of the development of fretting wear processes at the surfaces of push fit joint elements. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 234(8), 1208–1221.KowalskiS.CygnarM.CieślikowskiB.2020Analysis of the application of ZrN coatings for the mitigation of the development of fretting wear processes at the surfaces of push fit joint elements. Proceedings of the Institution of Mechanical Engineers, Part J23481208122110.1177/1350650119875067Search 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, 12(2), 131–140.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 vehicles12213114010.21307/acee-2019-029Search in Google Scholar
Stanuch, I., Sozańska, M., Biegańska, J., Cebula, J., Nowak, J. (2020). Fluctuations of the elemental composition in the layers of mineral deposits formed on the elements of biogas engines. Scientific Reports, 10, 4244.StanuchI.SozańskaM.BiegańskaJ.CebulaJ.NowakJ.2020Fluctuations of the elemental composition in the layers of mineral deposits formed on the elements of biogas engines10424410.1038/s41598-020-61212-xSearch in Google Scholar
Shaker, A., Yeung, W. (2010). Trail road landfill site monitoring using multi-temporal landsat satellte data. Department of civil engineering, Ryerson University, Toronto, Ontario.ShakerA.YeungW.2010Department of civil engineering, Ryerson UniversityToronto, OntarioSearch in Google Scholar
Leah, R., Johnson, M., Connor, L., Fox, W., Levene C. (2001). Dispersal of polychlorinated biphenyls from a closed landfill site. Land Contamination & Reclamation, 9(1), 1–8.LeahR.JohnsonM.ConnorL.FoxW.LeveneC.2001Dispersal of polychlorinated biphenyls from a closed landfill site9118Search in Google Scholar
Samadder, R., Prabhakar, R., Khan, D., Kishan, D., Chauhan, M.S. (2017). Analysis of the contaminants released from municipal solid waste landfill site: A case study. Science of The Total Environment, 580, 593–601.SamadderR.PrabhakarR.KhanD.KishanD.ChauhanM.S.2017Analysis of the contaminants released from municipal solid waste landfill site: A case study58059360110.1016/j.scitotenv.2016.12.003Search in Google Scholar
Rouholahnejad, E. Sadrnejad, S.A. (2009). Numerical simulation of leachate transport into the groundwater at landfill sites. 18th World IMACS/MODSIM Congress, Cairns, Australia.RouholahnejadE.SadrnejadS.A.200918th World IMACS/MODSIM CongressCairns, AustraliaSearch in Google Scholar
Berkhoff, K. (2007). Groundwater vulnerability assessment to assist the measurement planning of the water framework directive–a practical approach with stakeholders. Hydrol. Earth Syst. Sci. Discuss., 4, 1133–1151.BerkhoffK.2007Groundwater vulnerability assessment to assist the measurement planning of the water framework directive–a practical approach with stakeholders41133115110.5194/hessd-4-1133-2007Search in Google Scholar
Kondracki, J. (2002). Geografia regionalna Polski (Regional geography of Poland ). PWN, Warszawa.KondrackiJ.2002PWNWarszawaSearch in Google Scholar
Oszczypko, N. Wójcik, A. (1993). Objaśnienia do szczegółowej mapy geologicznej Polski 1:50 000 (Explanations to the detailed geological map of Poland 1: 50,000). PIG Warszawa.OszczypkoN.WójcikA.1993PIG WarszawaSearch in Google Scholar
Nowicki, Z. [ed.] (2009). Wody podziemne miast Polski. Miasta powyżej 50 000 mieszkańców (Groundwater in Polish cities. Cities with more than 50,000 inhabitants). PIG Warszawa.NowickiZ.[ed.]2009PIG WarszawaSearch in Google Scholar
Bear, J., Cheng, A.H. (2010). Modeling groundwater flow and contaminant transport. London, New York: Springer Science+Buisness Media B.V.BearJ.ChengA.H.2010London, New YorkSpringer Science+Buisness Media B.V.10.1007/978-1-4020-6682-5Search in Google Scholar
Marcak, H., Siemek, J. (1998). Przepływy w ośrodkach spękanych (Flows in fractured centers). Archiwum Górnictwa, 43, 457–469.MarcakH.SiemekJ.1998Przepływy w ośrodkach spękanych (Flows in fractured centers)43457469Search in Google Scholar
Bear, J. (1993).Modeling flow and contaminant Transport in Fractured Rocks, [w]: Bear J., Chin-Fu Tsang, de Marsily G. (red.) Flow and Contaminant Transport in Fractured Rock, Academic Press, San Diego, New York, Berkeley, Boston, Sydney, Tokyo.BearJ.1993Modeling flow and contaminant Transport in Fractured Rocks, [w]BearJ.Chin-FuTsangde MarsilyG.(red.)Academic PressSan Diego, New York, Berkeley, Boston, Sydney, Tokyo10.1016/B978-0-12-083980-3.50005-XSearch in Google Scholar
Macioszczyk, T. (1999). Czas przesączania pionowego wody jako wskaźnik stopnia ekranowania warstw wodonośnych (Time of the vertical seepage as an indicator of the aquifers’ vulnerability). Przegląd Geologiczny, 47(8), 731–736.MacioszczykT.1999Czas przesączania pionowego wody jako wskaźnik stopnia ekranowania warstw wodonośnych (Time of the vertical seepage as an indicator of the aquifers’ vulnerability)478731736Search in Google Scholar
Pazdro, Z., Kozerski, B. (1990). Hydrogeologia ogólna (General hydrogeology).Wyd. Geologiczne, Warszawa.PazdroZ.KozerskiB.1990WarszawaSearch in Google Scholar
Witczak, S., Adamczyk, A. (1995). Katalog wybranych fizycznych i chemicznych wskaźników zanieczyszczeń wód podziemnych i metod ich oznaczania tom I–II (Catalog of selected physical and chemical indicators of groundwater pollution and methods of their determination, volumes I–II). Biblioteka Monitoringu Środowiska, Warszawa.WitczakS.AdamczykA.1995Biblioteka Monitoringu ŚrodowiskaWarszawaSearch in Google Scholar
Carrillo-Chávez, A., Drever, J.I., Martínez, M. (2000). Arsenic content and groundwater geochemistry of the San Antonio-El Triunfo, Carrizal and Los Planes aquifers in southernmost Baja California. Environmental Geology, 39(11), 1295–1303.Carrillo-ChávezA.DreverJ.I.MartínezM.2000Arsenic content and groundwater geochemistry of the San Antonio-El Triunfo, Carrizal and Los Planes aquifers in southernmost Baja California39111295130310.1007/s002540000153Search in Google Scholar
Szczepański, A., Hałdus, A., Jastrzębski, J., Kulma, R. (1996). Badanie modelowe warunków przepływu wód podziemnych w strefach kontaktów hydraulicznych (Model study of groundwater flow conditions in hydraulic contact zones). Gospodarka Surowcami Mineralnymi, 2(2).SzczepańskiA.HałdusA.JastrzębskiJ.KulmaR.1996Badanie modelowe warunków przepływu wód podziemnych w strefach kontaktów hydraulicznych (Model study of groundwater flow conditions in hydraulic contact zones)22Search in Google Scholar
Harbaugh, A.W., Banta, E.R., Hill, M.C., McDonald, M.G. (2000). MODFLOW-2000, The U.S. Geological Survey Modular Ground-Water, Model–User Guide to Modularization Concepts and the Ground-Water Flow Process U.S. Geological Survey, Open-File Report 00-92 Reston, Virginia.HarbaughA.W.BantaE.R.HillM.C.McDonaldM.G.2000VirginiaSearch in Google Scholar
Wysowska, E., Kicińska, A., Nikiel, G. (2020). Analysis of Natural Vulnerability of Groundwater Intakes to Migration of Surface Pollutants Based on a Selected Part of the Dunajec River Basin. Pol. J. Environ. Stud. 29, 2925–2934.WysowskaE.KicińskaA.NikielG.2020Analysis of Natural Vulnerability of Groundwater Intakes to Migration of Surface Pollutants Based on a Selected Part of the Dunajec River Basin292925293410.15244/pjoes/111441Search in Google Scholar
Papadopoulou, M.P., Karatzas G.P., Bougioukou, G.G. (2007). Numerical modelling of the environmental impact of landfill leachate leakage on groundwater quality–a field application. Environmental Modeling & Assessment, 12, 43–54.PapadopoulouM.P.KaratzasG.P.BougioukouG.G.2007Numerical modelling of the environmental impact of landfill leachate leakage on groundwater quality–a field application12435410.1007/s10666-006-9050-xSearch in Google Scholar
Balcerzak, W., Generowicz, A., Mucha, Z. (2014). Application of Multi-Criteria Analysis for Selection of a Reclamation Method for a Hazardous Waste Landfill, Polish Journal of Environmental Studies, 23(3), 983–987.BalcerzakW.GenerowiczA.MuchaZ.2014Application of Multi-Criteria Analysis for Selection of a Reclamation Method for a Hazardous Waste Landfill233983987Search in Google Scholar
Porowska, D. (2019). Assessment Of the municipal landfill impact on groundwater at different periods of the post-closure stage (a landfill in Otwock) Biuletyn Państwowego Instytutu Geologicznego, 475, 183–190.PorowskaD.2019Assessment Of the municipal landfill impact on groundwater at different periods of the post-closure stage (a landfill in Otwock)475183190Search 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 Delivery1148010.3390/w11030480Search in Google Scholar
Gaska, K., Generowicz, A., Lobur, M., Jaworski, N., Ciuła, J., Mzyk, T. (2019). Optimization of Biological Wastewater Treatment Process by Hierarchical Adaptive Control. 2019 IEEE 15th International Conference on the Perspective Technologies and Methods in MEMS Design, MEMSTECH 2019–Proceedings, 2019, 119–122.GaskaK.GenerowiczA.LoburM.JaworskiN.CiułaJ.MzykT.2019Optimization of Biological Wastewater Treatment Process by Hierarchical Adaptive Control201911912210.1109/MEMSTECH.2019.8817382Search in Google Scholar
Abunama, T., Othman, F., Ansari, M. El-Shafie, A. (2019). Leachate generation rate modeling using artificial intelligence algorithms aided by input optimization method for an MSW landfill. Environ Sci Pollut Res, 26, 3368–3381.AbunamaT.OthmanF.AnsariM.El-ShafieA.2019Leachate generation rate modeling using artificial intelligence algorithms aided by input optimization method for an MSW landfill263368338110.1007/s11356-018-3749-5Search 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.KovalV.MikhnoI.HajdugaG.GaskaK.2019Economic efficiency of biogas generation from food product waste1000003910.1051/e3sconf/201910000039Search in Google Scholar
Rolle, M., Clement, T. P., Sethi, R. (2008). Di Molfetta A. m A kinetic approach for simulating redox-controlled fringe and core biodegradation processes in groundwater: model development and application to a landfill site in Piedmont, Italy. Hydrol. Process. 22, 4905–4921.RolleM.ClementT. P.SethiR.2008Di Molfetta A. m A kinetic approach for simulating redox-controlled fringe and core biodegradation processes in groundwater: model development and application to a landfill site in Piedmont, Italy224905492110.1002/hyp.7113Search 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(23), 6254.CiułaJ.KozikV.GenerowiczA.GaskaK.BakA.PaździorM.BarbusińskiK.2020Emission and Neutralization of Methane from a Municipal Landfill-Parametric Analysis1323625410.3390/en13236254Search in Google Scholar
Xi, B., Li, J., Wang, Y., Deng, Ch., Li, X., Ma, Y., Xiong, Y. (2021). Risk Assessment of Groundwater Contamination Sites. In: Investigation and Assessment Technology for Typical Groundwater-contaminated Sites and Application Cases. Singapore: Springer.XiB.LiJ.WangY.DengCh.LiX.MaY.XiongY.2021Risk Assessment of Groundwater Contamination Sites.SingaporeSpringerSearch in Google Scholar