References
- Directive (EU) 2018/850 of the European Parliament and of the Council of 30 May 2018 amending Directive 1999/31/EC on the landfill of waste (Dz.Urz. UE L 150 z 14.6.2018).
- Council Directive 1999/31/EC of 26 April 1999 on the landfill of waste, (Dz.U. L 182 z 16.7.1999).
- Cherubini F., Bargigli S., Ulgiati S.: Life cycle assessment (LCA) of waste management strategies: Landfilling, sorting plant and incineration, Waste Management, 29(1), 2009, 222-229.
- Achillas C., Moussiopoulos N., Karagiannidis A., Banias G., Perkoulidis G.: The use of multi-criteria decision analysis to tackle waste management problems: A literature review, Waste Management & Research, 29(5), 2011, 423-432.
- Hossain M.A., et al.: Environmental pitfalls and associated human health risks of landfill leachate, Science of The Total Environment, 905, 2024, art. no.167326.
- Castaldi M.J., LeBlanc J., Licata A.: Waste to energy as a replacement for landfills, ASME Mechanical Engineering Magazine, 144(6), 2022.
- Transnational Institute. Waste to energy. TNI Report, 8 February 2024. Transnational Institute, Amsterdam, 2024.
- Li J., et al.: Waste-to-energy: Status in China, Waste Management, 48, 2015, 593-608.
- Astrup T., Fruergaard T., Christensen T.H.: Recycling of plastic: Accounting of greenhouse gases and global warming contributions, Waste Management & Research, 27(8), 2009, 763-772.
- Ren X., Che Y., Yang K., Tao Y.: Risk perception and public acceptance toward a highly protested waste-to-energy facility in Shanghai, Waste Management, 48, 2016, 528-539.
- Rezania S., et al.: Review on Waste-to-Energy Approaches toward a Circular Economy, Processes, 11(9), 2023, art. no. 2566.
- Wójtowicz-Wróbel A., Marschalko M.: Study of the transformation of urban fabric in the vicinity of hybrid pro-environmental thermal waste processing plants, Case study of Kraków Teka Komisji Urbanistyki i Architektury PAN Oddział w Krakowie, vol. LII/2, 2024, 25-47.
- Liu Y., Wang J., Che Y.: Enhancing public acceptance towards waste-to-energy incineration: A socio-psychological perspective, Journal of Cleaner Production, 232, 2019, 441-451.
- Subiza-Pérez M., Vozmediano L., San Juan C.: Explaining social acceptance of a municipal waste incineration plant through sociodemographic and psycho-environmental variables, Environmental Pollution, 263, 2020, art. no.114510
- Wójtowicz-Wróbel A.: Spatial significance of new municipal engineering structures – the case of Italian ecoincineration plants, Czasopismo Techniczne, Volume 8, 2018 (115), 2018, 21-34.
- Stors N.: Crossing the Border of the Tourist Bubble: Touristification in Copenhagen, [in:] M. Gravari-Barbas & S. Guinand (red.), Tourism and Gentrification in Contemporary Metropolises, 2018, 219-238
- Christensen S. B.: The Danish urban system before 1800: A survey of recent research results, Urban History, 33(3), 2006, 452-472.
- Knowles R.D.: Transit oriented development in Copenhagen, Denmark: From the Finger Plan to Ø restad, Journal of Transport Geography, 22, 2012, 251-261.
- OECD.: Land-use planning systems in the OECD: Country fact sheets, OECD Publishing, Paris, 2017.
- København Kommune.: Resource and Waste Management Plan 2024 [English version], Copenhagen, 2024.
- Wójtowicz-Wróbel A.: From a vision to a necessity – from a necessity to a vision. Thermal waste processing plants - case study: Italy, IOP Conference Series: Materials Science and Engineering, vol. 471, 2019, 1-9.
- O’Sullivan S., Morrall J.: Walking distances to and from light-rail transit stations, Transportation Research Record, 1538, 1996, 19-26.