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Regulation of the Minister of Energy of October 5, 2017 on the detailed scope and method of preparing an energy efficiency audit and methods of calculating energy savings (Dz. U. 2017. 1912)(Dz. U.2017. 1912)Search in Google Scholar
The Act of May 20, 2016 on energy efficiency (Dz. U.2016. 831)(Dz. U.2016. 831)Search in Google Scholar
Announcement of the Minister of Energy of November 23, 2016 on the detailed list of projects aimed at improving the efficiency of energy (Dz. U.2016. 1184)(Dz. U.2016. 1184)Search in Google Scholar
Reference Document on Best Available Techniques in the Cement and Lime Industry and Magnesium Oxide production (European Commission, May 2010)European CommissionMay2010Search in Google Scholar
Decision of the European Commission of 26/03/2013 on the best available techniques (BAT) in the production of cement establishing the conclusions on the best available techniques (BAT) in accordance with Directive 2010/75/EU of the European Parliament and of the Council on industrial emissions, with regard to production of cement, lime and magnesium oxide (notified under document number C (2013) 1728)Search in Google Scholar
Duda J., Wasilewski M. (2012). The impact of modernization of cyclone heat exchangers on energy consumption, Instytut Ceramikii Materiałów Budow-lanych, 11.DudaJ.WasilewskiM.2012Instytut Ceramikii Materiałów Budow-lanych11Search in Google Scholar
Chmiel B., Grzegorczyk W.; Produkcja Cementu, Materiały Dydaktyczne Zakładu Technologii Chemicznej UMCS www.ztch.umcs.lublin.pl/materialy/prod_cem_bch.pdfChmielB.GrzegorczykW.www.ztch.umcs.lublin.pl/materialy/prod_cem_bch.pdfSearch in Google Scholar
Energy Information Administration: International Energy Statistics; 2012, www.eia.gov.2012www.eia.govSearch in Google Scholar
The European Wind Energy Association (EWEA), (2012). Wind in Power: 2011 European Statistics. February; www.ewea.org.The European Wind Energy Association (EWEA)2012Februarywww.ewea.orgSearch in Google Scholar
Bando M. (2018). Letter to the Minister of Energy Krzysztof Tchórzewski No. DEK-0730- 1 (1) /2018 /GK, Warszawa 31 stycznia.BandoM.2018Search in Google Scholar
Gillingham K., Tsvetanov T. (2018). Nudging energy efficiency audits: Evidence from a field experiment. Journal of Environmental Economics and Management, 90, 303–316.GillinghamK.TsvetanovT.2018Nudging energy efficiency audits: Evidence from a field experiment9030331610.1016/j.jeem.2018.06.009Search in Google Scholar
Gładyś, H. (2017). System zarządzania energią w przedsiębiorstwach i innych organizacjach na podstawie normy PN-EN ISO 5001. Energetyka, 5(755), 326.GładyśH.2017System zarządzania energią w przedsiębiorstwach i innych organizacjach na podstawie normy PN-EN ISO 50015755326Search in Google Scholar
Irrek, W., Thomas, R. (2008). Defining Energy Efficiency. Wuppertal: Wuppertal Institut fur Klima, Umwelt, Energie, 1, 1.IrrekW.ThomasR.2008Defining Energy Efficiency. Wuppertal: Wuppertal Institut fur Klima, Umwelt11Search in Google Scholar
Kluczek, A., Olszewski P. (2017). Energy audits in industrial processes. Journal of Cleaner Production, 142(4), 20, 3437–3453.KluczekA.OlszewskiP.2017Energy audits in industrial processes1424203437–345310.1016/j.jclepro.2016.10.123Search in Google Scholar
Kudełko, M., Suwała, W., Kamiński, J., Kaszyński P. (2013). Instrumenty ekonomiczne jako środek wdrażania koncepcji zrównoważonej gospodarki na rynku energii (Economic instruments as a means of implementing the concept of sustainable economy in the energy market). Rynek Energii, 4, 90–96.KudełkoM.SuwałaW.KamińskiJ.KaszyńskiP.2013Instrumenty ekonomiczne jako środek wdrażania koncepcji zrównoważonej gospodarki na rynku energii (Economic instruments as a means of implementing the concept of sustainable economy in the energy market)49096Search in Google Scholar
Schleich, J., Fleiter T. (2017). Effectiveness of energy audits in small business organizations, Resource and Energy Economics. In press, corrected proof. [Online] https://www.sciencedirect.com/science/article/pii/S0928765516302846 [Dostęp: 2.09.2017].SchleichJ.FleiterT.2017Effectiveness of energy audits in small business organizations, Resource and Energy Economics.Search in Google Scholar
Generowicz N. (2020). Analysis of emission of pollutants from selected heat sources for a single-family building, Przemysł Chemiczny, 99/9,1309–1311.GenerowiczN.2020Analysis of emission of pollutants from selected heat sources for a single-family building99913091311Search in Google Scholar
Generowicz N. (2020). Overwiew of selected natural gas drying methods, Architecture Civil Engineering Environment, 13(3), 73–83.GenerowiczN.2020Overwiew of selected natural gas drying methods133738310.21307/acee-2020-025Search in Google Scholar
Balcerzak W., Generowicz A., Mucha Z. (2014). Application of a multi-criteria analysis for selection of a method of reclamation method of a hazardous waste landfill, Polish Journal of Environmental Studies, 23, 3, 983–987.BalcerzakW.GenerowiczA.MuchaZ.2014Application of a multi-criteria analysis for selection of a method of reclamation method of a hazardous waste landfill233983–987Search in Google Scholar
Generowicz A. Kowalski Z., Banach M., Makara A. (2012). A glance the World, Waste Management 32(2), 349–350.GenerowiczA.KowalskiZ.BanachM.MakaraA.2012A glance the World32234935010.1016/j.wasman.2011.10.027Search in Google Scholar
Ciuła J., Gaska K., Generowicz A., Hajduga G., Energy from landfill gas as an example of circular economy, E3S Web of Conferences, Vol. 30, The First Conference of the International Water Association IWA for Young Scientist in Poland “Water, Wastewater and Energy in Smart Cities”, Cracow, Poland, 2018, doi. 10.1051/e3sconf/20183003002,CiułaJ.GaskaK.GenerowiczA.HajdugaG.,Energy from landfill gas as an example of circular economy, E3S Web of Conferences, Vol. 30Cracow, Poland2018doi.10.1051/e3sconf/20183003002Open DOISearch 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 Engineering Environment, 11(4), 151–159.GaskaK.GenerowiczA.ZimochI.CiułaJ.SiedlarzD.2018A GIS based graph oriented algorithmic model for poly-optimization of waste management system11415115910.21307/acee-2018-061Search in Google Scholar
Generowicz A., Gaska K., Hajduga G., 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, ISSN 2267-1242, DOI: 10.1051/e3sconf/20184400043GenerowiczA.GaskaK.HajdugaG.,Multi-criteria Analysis of the Waste Management System in a Metropolitan Area, E3S Web of Conferences 44, 00043, EKODOK2018, 16-18.04.2018DOI: 10.1051/e3sconf/20184400043Open DOISearch in Google Scholar
Olejnik T.P. (2012) Analysis of the breakage rate function for selected process parameters in quartzite milling, Chemical and Process Engineering, 33(1), 117–129,OlejnikT.P.2012Analysis of the breakage rate function for selected process parameters in quartzite milling33111712910.2478/v10176-012-0011-4Search in Google Scholar
Olejnik T.P. (2010). Kinetics of grinding ceramic bulk considering grinding media contact points, Physicochemical Problems of Mineral Processing, 44, 187–194.OlejnikT.P.2010Kinetics of grinding ceramic bulk considering grinding media contact points44187194Search 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, 12(4), 99–108. DOI: 10.21307/ACEE-2019-055GubanovaE.KupinetsL.DeforzhH.KovalV.GaskaK.2019Recycling of polymer waste in the context of developing circular economy12499108DOI:10.21307/ACEE-2019-055Open DOISearch in Google Scholar
Koval V., Mikhno I., Hajduga G., Gaska K., Economic efficiency of biogas generation from food product waste. E3S Web of Conferences 2019, 100, 00039. DOI: 10.1051/e3sconf/201910000039KovalV.MikhnoI.HajdugaG.GaskaK.Economic efficiency of biogas generation from food product waste201910000039DOI:10.1051/e3sconf/201910000039Open DOISearch in Google Scholar
Gaska, K.; Generowicz, A. 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 2020, 13, 3338.GaskaK.; GenerowiczA.SMART Computational Solutions for the Optimization of Selected Technology Processes as an Innovation and Progress in Improving Energy Efficiency of Smart Cities – A Case Study202013333810.3390/en13133338Search in Google Scholar