Transforming urban areas in accordance with the principles of Nature-Based Solutions

Čákyová, Katarína; Vertal, Marián; Vargová, Alena; Vranayová, Zuzana; Lis, Anna

doi:10.17512/bozpe.2023.12.11

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Tytuł artykułu

Transforming urban areas in accordance with the principles of Nature-Based Solutions

Autorzy

Čákyová Katarína , Vertal Marián , Vargová Alena , Vranayová Zuzana , Lis Anna

Treść / Zawartość

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DOI

10.17512/bozpe.2023.12.11

Warianty tytułu

Języki publikacji

Abstrakty

Settlement of the population in large urban centers contributes to the strong urbanization of substantial areas, especially increasing the density of buildings at the expense of green areas. Current trends are focused on sustainable development and the search for ways to ensure the permanent maintenance of the proper function of the ecological system. A sustainable approach is especially important for urbanized areas where nature is losing the fight against “concretosis”. The ecological idea, related to the concept of compensating the green space occupied by buildings, comes to the fore here, which provides ecological, economic and social benefits, and supports adaptation to climate change. The article presents the concept of transforming a specific urbanized area in accordance with the principles of Nature-Based Solutions. Detailed solutions on a local scale in Košice (Slovakia) were presented. Obtaining positive results from the applied solutions on a local scale can have positive effects not only for the indicated area or city, but can be adapted in other European cities, which will contribute to the creation of green and resilient urbanscapes.

Słowa kluczowe

urbanized areas sustainable development Nature-based Solutions green space compensation biologically active surface

Wydawca

Wydawnictwo Politechniki Częstochowskiej

Czasopismo

Budownictwo o Zoptymalizowanym Potencjale Energetycznym

Rocznik

2023

Tom

Vol. 12

Strony

94--106

Opis fizyczny

Bibliogr. 48 poz., rys.

Twórcy

autor

Čákyová Katarína

Technical University of Košice, Slovakia

https://orcid.org/0000-0003-1377-5000

autor

Vertal Marián

Technical University of Košice, Slovakia

https://orcid.org/0000-0003-2702-5868

autor

Vargová Alena

Technical University of Košice, Slovakia

https://orcid.org/0000-0002-4832-7534

autor

Vranayová Zuzana

zuzana.vranayova@tuke.sk

Technical University of Košice, Slovakia

https://orcid.org/0000-0003-1172-6248

autor

Lis Anna

Czestochowa University of Technology, Poland

https://orcid.org/0000-0001-9497-5754

Bibliografia

1. Balapgol, B.S. & Narwade, S.V. (2022) A review on conversion of existing building into green building. International Journal of Scientific Research in Engineering and Management, 5(6), 1-12.
2. Besir, A.B. & Cuce, E. (2018) Green roofs and facades: A comprehensive review. Renewable and Sustainable Energy Reviews, 1(82), 915-939.
3. Bona, S., Silva-Afonso A., Gomes, R., Matos, R. & Rodrigues, F. (2023) Nature-Based Solutions in urban areas: A European analysis. Applied Sciences, 13,168.
4. Brázdová, A. & Kupka, J. (2023) The objectivization of the living green walls concept as a tool for urban greening. Land, 12, 229.
5. Busha, J. & Doyon, A. (2019) Building urban resilience with nature-based solutions: How can urban planning contribute. Cities, 95, 102483.
6. Cai, Z. & Pan, H. (2023) Nature-based solutions can pave the way to carbon-neutral cities in 2030. Nature Climate Change, 13, 223.
7. Cakyova, K., Vertal, M., Vystrcil, J., Nespesny, O., Beckovsky, D., Rubina, A., Pencik, J. & Vranayova, Z. (2021a) The synergy of living and water wall in indoor environment. Case study in City of Brno. Sustainability, 13, 11649
8. Cakyova, K.,Vranay, F.,Vertal, M. & Vranayova, Z. (2021b) Determination of dehumidification capacity of waterwall with controlled water temperature: experimental verification under laboratory conditions. Sustainability, 13, 5684.
9. Cascone, S., Catania, F., Gagliano, A. & Sciuto, G. (2018) A comprehensive study on green roof performance for retrofitting existing buildings. Building and Environment, 136, 227-239.
10. Croci, E. & Lucchitta, B. (Eds.) (2021) Nature-Based Solutions for More Sustainable Cities. A Framework Approach for Planning and Evaluation. Bingley, Emerald Publishing Limited.
11. Doan, D.T., Kumarasiri, B. & Ghaffarian Hoseini, A. (2023). Green Building. In: Brinkmann, R. (eds.) The Palgrave Handbook of Global Sustainability. Cham, Palgrave Macmillan.
12. Domanicki, J, Vranayová, Z. & Vranay, F. (2021) Sustainable concept of energy management of buildings as an effective tool for green building. IOP Conference Series: Materials Science and Engineering, 1209.
13. Epelde, L., Mendizabal, M., Gutiérrez, L., Artetxe, A., Garbisu, C. & Feliub, E. (2022) Quantification of the environmental effectiveness of nature-based solutions for increasing the resilience of cities under climate change. Urban Forestry & Urban Greening, 67, 127433.
14. Goličnik Marušić, B., Dremel, M. & Ravnikar, Z. (2023) A frame of understanding to better link nature-based solutions and urban planning. Environmental Science and Policy, 146, 47-56.
15. Gorás, M., Vranayová, Z. & Vranay, F. (2021) The trend of using solar energy of a green intelligent building and thermal energy storage to reduce the energy intensity of the building. IOP Conference Series: Materials Science and Engineering, 1209, 012069.
16. Halaszova, I. & Kozlovska, M. (2021) Sustainability of green walls. IOP Conference Series: Materials Science and Engineering, 1209, 012070.
17. Huang, J., Kong, F., Yin, H., Middel, A., Liu, H. & Meadows, M.E. (2023) Green roof effects on urban building surface processes and energy budgets. Energy Conversion and Management, 287, 117100
18. Idzikowski, A. & Cierlicki, T. (2021) Economy and energy analysis in the operation of renewable energy installations – a case study. Production Engineering Archives, 27(2), 90-99.
19. Johnson, B. A., Kumar, P., Okano, N., Dasgupta, R. & Raj Shivakoti, B. (2022) Nature-based solutions for climate change adaptation: A systematic review of systematic reviews. Nature-Based Solutions, 2, 100042.
20. Kabisch, N., Frantzeskaki, N. & Hansen, R. (2022) Principles for urban nature-based solutions. Ambio, 51, 1388-1401
21. Karimi, H., Adibhesami, M.A., Bazazzadeh, H. & Movafagh, S. (2023) Green buildings: Humancentered and energy efficiency optimization strategies. Energies, 16, 3681.
22. Kim S.W. & Brown, R.D. (2021) Urban heat island (UHI) variations within a city boundary: A systematic literature review. Renewable and Sustainable Energy Reviews, 148, 111256
23. Kravchenko, M., Tkaczenko, T. & Mileikovskyi, V. (2023) Modification of the “green” roof using technical solutions to reduce the negative impact of stormwater in urban conditions. Problems of Water Supply Sewerage and Hydraulic, 43, 16-28
24. Kuok Ho, D.T. (2023) Green walls as mitigation of urban air pollution: A review of their effectiveness. Research in Ecology, 2(5), 5710.
25. Lis A. (2020) Renewable energy sources and rationalization of energy consumption in buildings as a way to reduce environmental pollution. Heating, Ventilation and Sanitation, 6(29), 264-271.
26. Minova, Z., Kapalo, P. & Vranayova, Z. (2019) Effect of an interior green wall on the environment in the classroom. In: Ali, M. & Platko, P. (Eds.) Advances and Trends in Engineering Sciences and Technologies III. London, CRC Press, 521-526.
27. Nature-Based Solutions & Re-Naturing Cities (2020) Luxembourg, Publications Office of the EU.
28. Pancewicz, A., Bednarz, D., Dróżdż, D., Marszoł, M. & Suchy, N. (2023) The use of Nature-Based Solutions in the adaptation of large Polish cities to climate change and energy transformation: A comparative analysis. Energies, 16, 5189.
29. Pongkua, W., Sriprapat, W., Thiravetyan, P. & Treesubsuntorn Ch. (2023) Active living wall for particulate matter and VOC remediation: potential and application. Environmental Science and Pollution Research, 30.
30. Poorova, Z., Alhosni, M.S., Kapalo, P. & Vranayova, Z. (2019) Change of temperature in the room with the living wall. IOP Conference Series: Materials Science and Engineering, 603, 052063.
31. Poorova, Z. & Vranayova, Z. (2020) Green Roofs and Water Retention in Košice. Cham, Springer.
32. Salmanian, M. & Bayat, A. (2023) Urban heat island: a primary guide for urban designers. Future Energy, 4(2), 10-23.
33. Savchenko, O. & Lis, A. (2021) Efficiency of solar energy use in domestic hot water systems in Poland. Construction of Optimized Energy Potential, 2(10), 45-52.
34. Stewart, I.D., & Mills, G. (2021) The Urban Heat Island: A Guidebook. Amsterdam, Elsevier.
35. Tan, T., Kong, F., Yin, H., Cook, L.M., Middel, A. & Yang, S. (2023) Carbon dioxide reduction from green roofs: A comprehensive review of processes, factors, and quantitative methods. Renewable and Sustainable Energy Reviews, 182, 113412.
36. Tian, Y., Tsendbazar, N.-E., van Leeuwen, E., Fensholt, R. & Herold, M. (2022) A global analysis of multifaceted urbanization patterns using Earth Observation data from 1975 to 2015. Landscape and Urban Planning, 219, 104316.
37. Tkaczenko, T., Mileikovskyi, V. & Kasianova, O. (2019) Assessment of energy savings and indirect reduction of CO2 emissions by vertical gardening. Ventilation Illumination and Heat Gas Supply, 31, 16-23
38. Venuh, Z., Thaneshwari, T., Raut, S. & Kombey, P. (2023) Green wall for healthy and sustainable urban society: A review. International Journal of Floriculture Science and Landscaping, 5, 1-9.
39. Vertal’, M., Zozulák, M., Vašková, A. & Korjenic, A. (2018) Hygrothermal initial condition for simulation process of green building construction. Energy & Buildings, 167, 166-176.
40. Voznyak, O., Spodyniuk, N., Antypov, I. & Svitlana, T. (2023) Efficiency improvement of eco-friendly solar heat supply system as a building coating. Sustainability, 15(3), 2831.
41. Vranayová, Z., Vargová, A., Vertaľ, M. & Čákyová, K. (2023). Vegetation Roofs for Sponge Cities: A Vision from Research to Practice. In: Gaspar, F. & Mateus, A. (Eds.) Sustainable and Digital Building. Cham, Springer.
42. Wickenberg, B., McCormick, K. & Alkan Olsson, J. (2021) Advancing the implementation of naturebased solutions in cities: A review of frameworks. Environmental Science and Policy, 125, 44-53.
43. World Cities Report 2022. Envisaging the Future of Cities (2023) Nairobi, UN-Habitat.
44. World Green Building Trends (2021) Bedford, Dodge Construction Network Research & Analytics.
45. World Population Prospect 2022 (2022) New York, Population Division, United Nations.
46. World Urbanization Prospects. The 2018 revision (2019) New York, United Nations.
47. Yow, D. (2023) Urban Heat Islands. In: Richardson, D. (Ed.) Urban Studies. Oxford, University Press
48. Ysebaert, T., Koch, K., Samson, R. & Denys, S. (2021) Green walls for mitigating urban particulate matter pollution. A review. Urban Forestry & Urban Greening, 59, 127014.

Uwagi

Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).

Typ dokumentu

Bibliografia

Identyfikator YADDA

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