This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Kassenberg, A., Szymalski, W. & Świerkula, E. (2019). Poradnik adaptacji miasta do zmiany klimatu. Warszawa: Instytut na rzecz Ekorozwoju.KassenbergA.SzymalskiW.ŚwierkulaE. (2019). Poradnik adaptacji miasta do zmiany klimatu. Warszawa: Instytut na rzecz Ekorozwoju.Search in Google Scholar
Deuster, C., Kajander, N., Muench, S., Natale, F., Nedee, A., Scapolo, F., Ueffing, P., & Vesnic Alujevic, L. (2023). Demography and Climate Change. EUR 31512 EN. Luxembourg: Publications Office of the European Union.DeusterC.KajanderN.MuenchS.NataleF.NedeeA.ScapoloF.UeffingP.Vesnic AlujevicL. (2023). Demography and Climate Change. EUR 31512 EN. Luxembourg: Publications Office of the European Union.Search in Google Scholar
Koch, F. (2021). Cities as transnational climate change actors: applying a Global South perspective. Third World Quaterly, 42(9), 2055–2073.KochF. (2021). Cities as transnational climate change actors: applying a Global South perspective. Third World Quaterly, 42(9), 2055–2073.Search in Google Scholar
Knowlton, K., Rosenthal, J. E., Hogrefe, C., & Lynn, B. (2004). Assessing ozon-related health impacts under a changing climate. Environmental Health Perspectives, 112(15), 1557–1563.KnowltonK.RosenthalJ. E.HogrefeC.LynnB. (2004). Assessing ozon-related health impacts under a changing climate. Environmental Health Perspectives, 112(15), 1557–1563.Search in Google Scholar
Januchta-Szostak, A. (2021). Klimat miasta: specyfi-ka, zagrożenia, adaptacja. Przegląd Komunalny, 9(360), 72–76.Januchta-SzostakA. (2021). Klimat miasta: specyfi-ka, zagrożenia, adaptacja. Przegląd Komunalny, 9(360), 72–76.Search in Google Scholar
Przesmycka, N., Kwiatkowski, B. & Kozak, M. (2022). The Thermal Comfort Problem in Public Space during the Climate Change Era Based on the Case Study of Selected Area in Lublin City in Poland. Energies, 15(6504), [1–26].PrzesmyckaN.KwiatkowskiB.KozakM. (2022). The Thermal Comfort Problem in Public Space during the Climate Change Era Based on the Case Study of Selected Area in Lublin City in Poland. Energies, 15(6504), [1–26].Search in Google Scholar
Battista, G., de Lieto Vollaro, R. & Zinzi, M. (2019). Assessment of urban overheating mitigation strategies in a square in Rome, Italy. Solar Energy, 180, 608–621.BattistaG.de Lieto VollaroR.ZinziM. (2019). Assessment of urban overheating mitigation strategies in a square in Rome, Italy. Solar Energy, 180, 608–621.Search in Google Scholar
Chen, L. & Ng, E. (2013). Simulation of the effect of downtown greenery on thermal comfort in subtropical climate using PET index: A case study in Hong Kong. Architectural Science Review, 56(4), 297–305.ChenL.NgE. (2013). Simulation of the effect of downtown greenery on thermal comfort in subtropical climate using PET index: A case study in Hong Kong. Architectural Science Review, 56(4), 297–305.Search in Google Scholar
Alves, F. M., Gonçalves, A. & del Caz Enjuto, M. R. (2022). The Use of Envi-Met for the Assessment of Nature-Based Solutions’ Potential Benefits in Industrial Parks—A Case Study of Argales Industrial Park (Valladolid, Spain). Infrastructures, 7(85), [1–22].AlvesF. M.GonçalvesA.del Caz EnjutoM. R. (2022). The Use of Envi-Met for the Assessment of Nature-Based Solutions’ Potential Benefits in Industrial Parks—A Case Study of Argales Industrial Park (Valladolid, Spain). Infrastructures, 7(85), [1–22].Search in Google Scholar
Bochenek, A. & Klemm, K. (2020). Assessment of human thermal comfort in street canyons. An example of typical structures (Lodz, Poland). Budownictwo o Zoptymalizowanym Potencjale Energetycznym, 9(1), 69–76.BochenekA.KlemmK. (2020). Assessment of human thermal comfort in street canyons. An example of typical structures (Lodz, Poland). Budownictwo o Zoptymalizowanym Potencjale Energetycznym, 9(1), 69–76.Search in Google Scholar
Degórska, B. (2014). Wrażliwość i adaptacja dużych miast do zmian klimatu w kontekście wzrostu temper-atury powietrza. Biuletyn Polska Akademia Nauk, 254, 27–46.DegórskaB. (2014). Wrażliwość i adaptacja dużych miast do zmian klimatu w kontekście wzrostu temper-atury powietrza. Biuletyn Polska Akademia Nauk, 254, 27–46.Search in Google Scholar
Januchta-Szostak, A. (2020). Błękitno-zielona infra-struktura jako narzędzie adaptacji miast do zmian kli-matu i zagospodarowania wód opadowych. Zeszyty Naukowe Politechniki Poznańskiej. Architektura, Urbanistyka, Architektura Wnętrz, 3, 37-74.Januchta-SzostakA. (2020). Błękitno-zielona infra-struktura jako narzędzie adaptacji miast do zmian kli-matu i zagospodarowania wód opadowych. Zeszyty Naukowe Politechniki Poznańskiej. Architektura, Urbanistyka, Architektura Wnętrz, 3, 37–74.Search in Google Scholar
Herath, H. M. P. I. K., Halwatura, R. U., & Jayasinghe, G. Y. (2018). Evaluation of green infrastructure effects on tropical Sri Lankan urban context as an urban heat island adaptation strategy. Urban Forestry & Urban Greening, 29, 212–222.HerathH. M. P. I. K.HalwaturaR. U.JayasingheG. Y. (2018). Evaluation of green infrastructure effects on tropical Sri Lankan urban context as an urban heat island adaptation strategy. Urban Forestry & Urban Greening, 29, 212–222.Search in Google Scholar
Hoelscher, M., Nehls, T., Jänicke, B., & Wessolek, G. (2016). Quantifying cooling effects of façade greening: Shading, transpiration and insulation. Energy and Buildings, 114, 283-290.HoelscherM.NehlsT.JänickeB.WessolekG. (2016). Quantifying cooling effects of façade greening: Shading, transpiration and insulation. Energy and Buildings, 114, 283-290.Search in Google Scholar
Li, Z., Chow, D. H. C., Yao, J., Zheng, X., & Zhao, W. (2019). The effectiveness of adding horizontal greening and vertical greening to courtyard areas of existing buildings in the hot summer cold winter region of China: A case study for Ningbo. Energy and Buildings, 196, 227–239.LiZ.ChowD. H. C.YaoJ.ZhengX.ZhaoW. (2019). The effectiveness of adding horizontal greening and vertical greening to courtyard areas of existing buildings in the hot summer cold winter region of China: A case study for Ningbo. Energy and Buildings, 196, 227–239.Search in Google Scholar
Aboelata, A., & Sadoudi, S. (2020). Evaluating the effect of trees on UHI mitigation and reduction of energy usage in different built up areas in Cairo. Building and Environment, 168, 1–13.AboelataA.SadoudiS. (2020). Evaluating the effect of trees on UHI mitigation and reduction of energy usage in different built up areas in Cairo. Building and Environment, 168, 1–13.Search in Google Scholar
Zhang, L., Deng, Z., Liang, L., Zhang, Y., Meng, Q., Wang, J., & Santamouris, M. (2019). Thermal behavior of a vertical green façade and its impact on the indoor and outdoor thermal environment. Energy and Buildings, 204(109502), [1–14].ZhangL.DengZ.LiangL.ZhangY.MengQ.WangJ.SantamourisM. (2019). Thermal behavior of a vertical green façade and its impact on the indoor and outdoor thermal environment. Energy and Buildings, 204(109502), [1–14].Search in Google Scholar
Gargari, C., Bibbiani, C., Fantozzi, F., & Campiotti, C. A. (2016). Simulation of the thermal behaviour of a building retrofitted with a green roof: optimization of energy efficiency with reference to Italian climatic zones. Agriculture and Agricultural Science Procedia, 8, 628-636.GargariC.BibbianiC.FantozziF.CampiottiC. A. (2016). Simulation of the thermal behaviour of a building retrofitted with a green roof: optimization of energy efficiency with reference to Italian climatic zones. Agriculture and Agricultural Science Procedia, 8, 628-636.Search in Google Scholar
Shaheen, A. M. A., Sabry, H. M. K., & El Dessoqy Faggal, A. A. (2020). Double Skin Green Façade in Workplace for Enhancing Thermal Performance in Greater Cairo. Engineering Research Journal, 168, A1-A12.ShaheenA. M. A.SabryH. M. K.El Dessoqy FaggalA. A. (2020). Double Skin Green Façade in Workplace for Enhancing Thermal Performance in Greater Cairo. Engineering Research Journal, 168, A1–A12.Search in Google Scholar
Matzarakis, A., & Mayer, H. (1996). Another Kind of Environmental Stress: Thermal Stress. WHO Colloborating Centre for Air Quality Management and Air Pollution Control. Newsletters, 18, 7–10.MatzarakisA.MayerH. (1996). Another Kind of Environmental Stress: Thermal Stress. WHO Colloborating Centre for Air Quality Management and Air Pollution Control. Newsletters, 18, 7–10.Search in Google Scholar
Ng, E., Chen, L., Wang, Y. & Yuan, C. (2012). A study on the cooling effects of greening in a high-density city: An experience from Hong Kong. Building and Environment, 47, 256–271.NgE.ChenL.WangY.YuanC. (2012). A study on the cooling effects of greening in a high-density city: An experience from Hong Kong. Building and Environment, 47, 256–271.Search in Google Scholar
Acero, J. A., Koh, E. J. Y., Li, X. X., Ruefenacht, L. A., Pignatta, G. & Norford, L. K. (2019). Thermal impact of the orientation and height of vertical greenery on pedestrian in a tropical area. Building Simulation, 12, 973-984.AceroJ. A.KohE. J. Y.LiX. X.RuefenachtL. A.PignattaG.NorfordL. K. (2019). Thermal impact of the orientation and height of vertical greenery on pedestrian in a tropical area. Building Simulation, 12, 973-984.Search in Google Scholar
Sözen, İ. & Oral, G. K. (2019). Outdoor thermal comfort in urban canyon and courtyard in hot arid climate: A parametric study based on the vernacular settlement of Mardin. Sustainable Cities and Society, 48(101398), [1–15].Sözenİ.OralG. K. (2019). Outdoor thermal comfort in urban canyon and courtyard in hot arid climate: A parametric study based on the vernacular settlement of Mardin. Sustainable Cities and Society, 48(101398), [1–15].Search in Google Scholar
Middel, A., Chhetri, N. & Quay, R. (2015). Urban forestry and cool roofs: Assessment of heat mitigation strategies in Phoenix residential neighborhoods. Urban Forestry & Urban Greening, 14(1), 178–186.MiddelA.ChhetriN.QuayR. (2015). Urban forestry and cool roofs: Assessment of heat mitigation strategies in Phoenix residential neighborhoods. Urban Forestry & Urban Greening, 14(1), 178–186.Search in Google Scholar
Nastran, M., Kobal, M. & Eler, K. (2019). Urban heat islands in relation to green land use in European cities. Urban Forestry & Urban Greening, 37, 33–41.NastranM.KobalM.ElerK. (2019). Urban heat islands in relation to green land use in European cities. Urban Forestry & Urban Greening, 37, 33–41.Search in Google Scholar
Eumorfopoulou, E. & Aravantinos, D. (1998). The contribution of a planted roof to the thermal protection of buildings in Greece. Energy and Buildings, 27, 29–36.EumorfopoulouE.AravantinosD. (1998). The contribution of a planted roof to the thermal protection of buildings in Greece. Energy and Buildings, 27, 29–36.Search in Google Scholar
Wong, N. H., Chen, Y., Ong, C. L. & Sia, A. (2003). Investigation of thermal benefits of rooftop garden in the tropical environment. Energy and Buildings, 35, 35–364.WongN. H.ChenY.OngC. L.SiaA. (2003). Investigation of thermal benefits of rooftop garden in the tropical environment. Energy and Buildings, 35, 35–364.Search in Google Scholar
Saiz, S., Kennedy, K., Bass, B. & Pressnail, K. (2006). Comparative Life Cycle Assessment of Standard and Green Roofs. Environmental Science & Technology, 40, 4312–4316.SaizS.KennedyK.BassB.PressnailK. (2006). Comparative Life Cycle Assessment of Standard and Green Roofs. Environmental Science & Technology, 40, 4312–4316.Search in Google Scholar
Morakinyo, T. E. & Lam, Y. F. (2016). Simulation study on the impact of tree-configuration, planting pattern and wind condition on street-canyon’s microclimate and thermal comfort. Buildings and Environment, 103, 262–275.MorakinyoT. E.LamY. F. (2016). Simulation study on the impact of tree-configuration, planting pattern and wind condition on street-canyon’s microclimate and thermal comfort. Buildings and Environment, 103, 262–275.Search in Google Scholar
Tsoka, S., Leduc, T. & Rodler, A. (2021). Assessing the effects of urban trees on building cooling energy needs: The role of foliage density and planting pattern. Sustainable Cities and Society, 65(102633), [1–16].TsokaS.LeducT.RodlerA. (2021). Assessing the effects of urban trees on building cooling energy needs: The role of foliage density and planting pattern. Sustainable Cities and Society, 65(102633), [1–16].Search in Google Scholar
Plan adaptacji do zmian klimatu miasta Łodzi do roku 2030.Plan adaptacji do zmian klimatu miasta Łodzi do roku 2030.Search in Google Scholar
Niachou, A., Papakonstantinou, K., Santamouris, M., Tsangrassoulis, A., & Mihalakakou, G. (2001). Analysis of the green roof thermal properties and investigation of its energy performance. Energy and Buildings, 33, 719–729.NiachouA.PapakonstantinouK.SantamourisM.TsangrassoulisA.MihalakakouG. (2001). Analysis of the green roof thermal properties and investigation of its energy performance. Energy and Buildings, 33, 719–729.Search in Google Scholar
Ragab, A., & Abdelrady, A. (2020). Impact of green roofs on energy demand for cooling in Egyptian buildings. Applied Sciences, 12(14), 1–13.RagabA.AbdelradyA. (2020). Impact of green roofs on energy demand for cooling in Egyptian buildings. Applied Sciences, 12(14), 1–13.Search in Google Scholar
Assimakopoulos, M. N., De Masi, R. F., Rossi, F., Papadaki, D., & Ruggiero, S. (2020). Green Wall Design Approach Towards Energy Performance and Indoor Comfort Improvement: A Case Study in Athens. Sustainability, 12(3772), [1–23].AssimakopoulosM. N.De MasiR. F.RossiF.PapadakiD.RuggieroS. (2020). Green Wall Design Approach Towards Energy Performance and Indoor Comfort Improvement: A Case Study in Athens. Sustainability, 12(3772), [1–23].Search in Google Scholar
Mabdeh, S., Al Radaideh, T., & Hiyari, M. (2020). Enhancing thermal comfort of residential buildings through dual functional passive system (solar-wall). Journal of Green Building, 16(2), 139–161.MabdehS.Al RadaidehT.HiyariM. (2020). Enhancing thermal comfort of residential buildings through dual functional passive system (solar-wall). Journal of Green Building, 16(2), 139–161.Search in Google Scholar
Portal REWITALIZACJA (2024). Stary Rynek – Rewitalizacja. Retrieved from: https://rewitalizacja.uml.lodz.pl/dzialania/4-okolice-placu-wolnosci-i-starego-rynku/stary-rynek/Portal REWITALIZACJA (2024). Stary Rynek – Rewitalizacja. Retrieved from: https://rewitalizacja.uml.lodz.pl/dzialania/4-okolice-placu-wolnosci-i-starego-rynku/stary-rynek/Search in Google Scholar
Białas, K. (2023). Wkrótce ruszają prace! Stary Rynek w Łodzi po remoncie będzie zielony! Retrieved from: https://www.whitemad.pl/stary-rynek-w-lodzi-miasto-zmienia-projekt-mniej-betonu-wiecej-zieleni/BiałasK. (2023). Wkrótce ruszają prace! Stary Rynek w Łodzi po remoncie będzie zielony! Retrieved from: https://www.whitemad.pl/stary-rynek-w-lodzi-miasto-zmienia-projekt-mniej-betonu-wiecej-zieleni/Search in Google Scholar
Rewitalizacja Starego Rynku w Łodzi. Odkopano ponad tysiąc artefaktów (2023). Retrieved from: https://turystyka.wp.pl/rewitalizacja-starego-rynku-w-lodzi-odkopano-ponad-tysiac-artefaktow-6804424151059168aRewitalizacja Starego Rynku w Łodzi. Odkopano ponad tysiąc artefaktów2023. Retrieved from: https://turystyka.wp.pl/rewitalizacja-starego-rynku-w-lodzi-odkopano-ponad-tysiac-artefaktow-6804424151059168aSearch in Google Scholar
Skanska-informacja prasowa (2023). Skanska zakończyła przebudowę placu Dąbrowskiego w Łodzi. Retrieved from: https://www.skanska.pl/o-skanska/media/informacje-prasowe/48649/Skanska-zakonczyla-przebudowe-placu-Dabrowskiego-w-Lodzi/Skanska-informacja prasowa (2023). Skanska zakończyła przebudowę placu Dąbrowskiego w Łodzi. Retrieved from: https://www.skanska.pl/o-skanska/media/informacje-prasowe/48649/Skanska-zakonczyla-przebudowe-placu-Dabrowskiego-w-Lodzi/Search in Google Scholar
Rubaszewska, M. (2023). Tak będzie wyglądał plac Dąbrowskiego w Łodzi. Retrived from: https://expressilustrowany.pl/tak-bedzie-wygladal-plac-dabrowskiego-w-lodzi-wizualizacje/ar/c1-17174793RubaszewskaM. (2023). Tak będzie wyglądał plac Dąbrowskiego w Łodzi. Retrived from: https://expressilustrowany.pl/tak-bedzie-wygladal-plac-dabrowskiego-w-lodzi-wizualizacje/ar/c1-17174793Search in Google Scholar
ŁÓDŹ BUDUJE, ZIELONA ŁÓDŹ (2022). Jak zmieni się Plac Dąbrowskiego po remoncie? Wybierz najlepszy projekt!. Retrived from: https://lodz.pl/artykul/jak-zmieni-sie-plac-dabrowskiego-po-remoncie-wybierz-najlepszy-pro-jekt-sonda-54000/ŁÓDŹ BUDUJE, ZIELONA ŁÓDŹ (2022). Jak zmieni się Plac Dąbrowskiego po remoncie?Wybierz najlepszy projekt!. Retrived from: https://lodz.pl/artykul/jak-zmieni-sie-plac-dabrowskiego-po-remoncie-wybierz-najlepszy-pro-jekt-sonda-54000/Search in Google Scholar
Bochenek, A. & Klemm, K. (2018). Assessment of the impact of spatial development changes on thermal comfort experienced by man in the external environment. IOP Conference Series: Materials Science and Engineering, 415(012022), [1–8].BochenekA.KlemmK. (2018). Assessment of the impact of spatial development changes on thermal comfort experienced by man in the external environment. IOP Conference Series: Materials Science and Engineering, 415(012022), [1–8].Search in Google Scholar
Bochenek A. (2022). The Influence of Urban Forms and Adaptation Strategies on Microclimate and Human Thermal Comfort (PhD thesis, Lodz University of Technology). Poland, Lodz.BochenekA. (2022). The Influence of Urban Forms and Adaptation Strategies on Microclimate and Human Thermal Comfort (PhD thesis, Lodz University of Technology). Poland, Lodz.Search in Google Scholar
ASHRAE (2017). Standard 55 – Thermal environmental conditions for human occupancy. American Society of Heating, Refrigeration and Air Conditioning Engineers. USA, GA, Atlanta.ASHRAE (2017). Standard 55 – Thermal environmental conditions for human occupancy. American Society of Heating, Refrigeration and Air Conditioning Engineers. USA, GA, Atlanta.Search in Google Scholar
Sudoł-Szkopińska, I. & Chojnacka, A. (2007). Określenie warunków komfortu termicznego w pomieszczeniach za pomocą wskaźników PMV i PPD. Bezpieczeństwo pracy, 5, 19–23.Sudoł-SzkopińskaI.ChojnackaA. (2007). Określenie warunków komfortu termicznego w pomieszczeniach za pomocą wskaźników PMV i PPD. Bezpieczeństwo pracy, 5, 19–23.Search in Google Scholar
Fanger, P. O. (1973). Assessment of man’s thermal comfort in practice. British Journal of Industrial Medicine, 30, 313–324.FangerP. O. (1973). Assessment of man’s thermal comfort in practice. British Journal of Industrial Medicine, 30, 313–324.Search in Google Scholar
De Freitas, C. R. & Grigorieva, E. A. (2017). A comparison and appraisal of a comprehensive range of human thermal climate indices. International Journal of Biometeorology, 61(3), 487–512.De FreitasC. R.GrigorievaE. A. (2017). A comparison and appraisal of a comprehensive range of human thermal climate indices. International Journal of Biometeorology, 61(3), 487–512.Search in Google Scholar
Deb, C. & Alur, R. (2010). The significance of Physiological Equivalent Temperature (PET) in outdoor thermal comfort studies. International Journal of Engineering Science and Technology, 2(7), 2825–2828.DebC.AlurR. (2010). The significance of Physiological Equivalent Temperature (PET) in outdoor thermal comfort studies. International Journal of Engineering Science and Technology, 2(7), 2825–2828.Search in Google Scholar
Basarin, B., Lukić, T. & Matzarakis, A. (2020). Review of biometeorology of heatwaves and warm extremes in Europe. Atmosphere, 11(1276), 1–21.BasarinB.LukićT.MatzarakisA. (2020). Review of biometeorology of heatwaves and warm extremes in Europe. Atmosphere, 11(1276), 1–21.Search in Google Scholar
