Czy zmiana klimatu opóźni postęp w gospodarce ściekowej?

• Autorzy: Łaskawiec Edyta
• Języki publikacji: PL

Abstrakty

PL

Zmiana klimatu wiąże się ze wzrostem częstotliwości występowania ekstremalnych zjawisk pogodowych, a także z ich nierównomiernym rozmieszczeniem w czasie i przestrzeni. Konsekwencją jest wzrost zagrożeń dla infrastruktury krytycznej. Wśród najbardziej dotkliwych skutków zmiany klimatu dla systemów oczyszczania ścieków znajdują się powodzie, podtopienia oraz silne opady, które powodują uszkodzenia, awarie, a także destabilizację procesów biologicznych.

Słowa kluczowe

PL

zmiany klimatyczne; gospodarka ściekowa; ryzyko powodzi; wzrost temperatury; systemy oczyszczania ścieków

EN

climate change; sewage management; flood risk; temperature increase; sewage treatment

• Wydawca: Stowarzyszenie Eksploatatorów Obiektów Gospodarki Wodno-Ściekowej
• Czasopismo: Forum Eksploatatora
• Rocznik: 2024
• Tom: Nr 4 (129)
• Strony: 66--70
• Opis fizyczny: Bibliogr. 32 poz., rys.

Twórcy

autor

Łaskawiec Edyta

• Instytut Technologu Paliw i Energii ul. Zamkowa 1, 41-803 Zabrze

Bibliografia

• 1 . European Environment Agency, What will the future bring when it comes to climale hazards? - Overview, https://www.ea.europa.eu/publications/europes-changing-climate-hazards-1/what-will-the-future-bring.
• 2. Zouboulis A., Tolkou A., Effect of Climale Change in Wastewater Treatment Plants: Reviewing the problemsand Solutions. In: S, Shrestha, A. Anal, R Salam, M. van der Valk (eds), Managing Water Resources under Climate Uncertainty Springer Water, Springer, Cham 2015, 197-220.
• 3. Bednar-Friedl B., Biesbroek R., Schmidt D.N., Alesander R, Borsheim K.Y., Carnicer i., Georgopoulou ., Haasnoot M., Le Cozannet G., Lionello R, Lipka O., Möllmann C., Muccione V, Mustonen T., Piepenburg D., Whitmarsh L., Europe. In: Climate Change 2022: Impacts, Adaptation and Vulnerability. Contribution of Working Croup II to the Sixth Assessraent Report of the Intergovernmental Panel on Climate Change, Cambridge University Press, Cambridge, UK and New York, NY, USA 2022, 1817-1927.
• 4. Paprotny D., Sebastian A., Morales-Napoles O., Jonkman S. N., Trends in flood losses in Europę over the past 150 years, „Nature Communications" 20(8, 9, 19M5.
• 5. Fang B., Bevacqua E., Rakovec O., Zscheischler J., An increase in the spatial extent of European floods over the last 70 years, „Hydrology and Earth System Sciences" 2024, 2H, 3755-3775.
• 6. European Climate and Health Observatory, Fatalities associated with floods (1980-2022), https://climate-adapt.eea.europa.eu/en/observatory/evidence/health-erfects/flooding.
• 7. Kimutai J., Vautard R., Zachariah M. el al., Climate change and high exposure increased costs and disruption to Iives and livelihoods from flooding associated with esceptionally heavy rainfall in Central Europe, Report, Imperial Collage London, 2024.
• 8. Bronstert A., Crisologo I., Heistermann M., Ozturk U, Vogel K, Wendi D., Flash-Floods: More Often, More Severe, More Damaging? An Analysis of Hydro-geo-environniental Conditions and Anthropogenic Impacts. In: W. I.eal Eilho, G. N'agy, M. Borga, P. Chiivez Muńoz. A. Magnuszewski (eds), Climate Change, Hazards and Adaptation Options. Climate Change Management. Springer, Cham 2020, 225-244.
• 9. Zhou Q., I.eng G., Su J., Ren Y., Comparison of urbanization and climate change impacts on urban flood volumes: Importance of urban planning and drainage adaptation, „Science of The Total Environment" 2019, 658, 24-33.
• 10. AA-FLOODS, 2020, record year in number of floods in Europe, https;//aafloods.eu/2020-record-ycar-in-number-of-floods-in-europe/.
• 11. Copernicus Climate Change Service, European State of the Climate, 2021, https://dimate.copernicus.eu/esotc/2021/flooding-july.
• 12. Poschlod B., Attrihuling heavy rainfall event in Berchtesgadener Land to recent climate change - Further rainfall intensification projected for the future, „Weather and Climate Extremes" 2022,38,100492.
• 13. Bevacqua E., Maraun D., Vousdoukas M.I., Voukouvalas E., Vrac M.- Mentaschi L., Widmann M., Higher probability of compound flooding from precipitation and storm surge in Europe under andropogenic climate change, „Science Advances" 2019, 5 (9),1 -7,
• 14. Santos J,A., Belo-Pereira M., Fraga R, Pinto J.G., Understanding climate change projections for precipitation over western Europe with a weather typing approach, „Journal of Geophysical Research: Atmospheres" 2016,121 (3).
• 15. Copernicus Climate Change Service, European State of the Climate, 2022, hltps://climate.copernicus.eu/esotc/2022/precipitation,
• 16. Copernicus Climate Change Service, European State of the Climate, 2023, https://climate.Copernicus.eu/esotc/2023/flooding.
• 17. Copernicus Climate Change Service, The 2023 Annual Climate Summary Global Climale Highlights 2023, https://climate.Copernicus.eu/global-dimale-highlights-2023.
• 18. Copernicus Climate Change Sewice, Surface air temperaturę for September 2024, https://climate.copernicus.eu/surface-air-temperature-september-2024.
• 19. Copernicus Climate Change Service, Copernicus: Summer2024 - Hottest on record globally and for Europe, https://climate.Copernicus.eu/copernicus-summer-2024-hottest-record-globally-and-europe.
• 20. Bujalski S., Naukowcy o powodzi w Polsce: zmiana klimatu wpłynęła na katastrofy Nauka o Klimacie, https://naukaoklimacie.pl/aktualnosci/naukowcy-o-powodzi-w-polsce-zmiana-klimatu-wpływa-na-katastrofe.
• 21. TVN Meteo, https://tvn24.pl/tvnmeteo/swiat/ powodz-2024-w-europie-srodkowej-wiele-ofiar-smiertelnych - ogromne-zniszczenia-a-to-jeczcze-nie-koniec-stH094971.
• 22. Instytut Meteorologii i Gospodarki Wodnej Niż genueński Boris. Prognoza pogody na okres 12-15.09.2024 r., https://www.imgw.pl/wydarzenia/niz-genuenski-boris-prognoza-pogody na-okres-12-15-09-2024-r.
• 23. Progress on Household drinking water, sanitation and hygiene 2000-2022: special focus on gen der, United Nations Childrens Fund (UNICEF; and World Health Organization (WHO], 2023.
• 24. Ehalt Macedo H., Lehner B„ Nicell ]., Grill G. Li J., Limtong A., Shakya R., Global distributior of waste water treatment plants and their released effluents into rivers and streams, Earth System Science Data, preprint, 2021.
• 25. Water Europe, Socio-economic study on the value of the EU investing in water, Brussels, Belgium, 2024, https://walereurope.eu/wp-content/uploads/2024/10/Water-Europe-Socio-Economic-Study-l.pdf.
• 26. Travnićek P, Junga R, Kotek I.„ Vitez T., Analysis of accidents at municipal wastewater treatment plants in Europe, „Journal of Loss Prevention in the Process Industries" 2022, 74,104634.
• 27. Lawrence J., Blackett R, Cradock-Henry N.A., Cascading climate change impacts and implications. Climate Risk Management" 2020,29,100234.
• 28. Hughes J., Cowper-Hcays K., Olesson E., Bell R., Stroombergen A., Impacts and implications of climate change on wastewater systems: A New Zeland perspective, „Climate Risk Management" 2021, 31, 100262.
• 29. Nicholls R.J., Lincke D., Hinkel J., Brown S, Vafeidis A.T., Meyssignac B., Hanson S.E., Merkens J.-L, Fang J., A global analysis of subsidence, relative sea-level change and coastal flood exposure, „Nature Climate Change" 2021,11, 338-342.
• 30. Ranieri E., D'Onghia G., Lopopolo L., Gikas R, Ranieri F, Cika E., Spagnolo V., Herrera J.A., Ranieri A.C., Influence of climate change on wastewater treatment plants performances and energy costs in Apulia, south Italy,, Chemosphere" 2024,350,141087.
• 31. Gimenez-Maranges M., Breuste J., Hof A., Sustainable Drainage Systems for transitioning to sustainable urban flood management in the European Union: A review, „Journal of Cleaner Production" 2020,255, 120191.
• 32. Pamidimukkala A., Kermajishachi S., Adepu N., Safapour E., Resilience in Water Infrastructures: A Review of Changes and Adoption Strategies, „Sustainability" 2021,13,12986.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa nr POPUL/SP/0154/2024/02 w ramach programu "Społeczna odpowiedzialność nauki II" - moduł: Popularyzacja nauki (2025).