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Warianty tytułu
Zastosowanie zielono-niebieskich dachów łagodzących zjawiska „wysp ciepła” i łagodzących skutki zmian klimatu na terenach miejskich: przykład z Seulu, Korea
Języki publikacji
Abstrakty
Green blue roof has the potential to reduce the surface temperature of the building in the urban areas. Green blue roof is a new innovative low impact development (LID) practice that has exhibited an option to mitigate the heat island phenomena in urban area. This is the modified form of green roof that has ability to store rainwater in vegetation, soil layer and increases the evapotranspiration rate which decreases the temperature of an area. For this purpose, green blue roof is installed at the Cheong-un middle school building roof, Seoul, Korea. During the different time scenarios the surface temperature from the green blue roof and control roof were analyzed and their results were compared with each other. The results revealed that the surface temperature of green blue roof was much less as compared to control roof under same climatic conditions. From the results it is also concluded that surface temperature value of green blue roof was less than 5°C to 9°C as compared to control roof.
Zielono-niebieskie dachy mają zdolność obniżania temperatury powierzchni budynku na terenach miejskich. Jest to innowacyjna technologia wdrażana w ramach „zielonej infrastruktury”, która ma łagodzić zjawisko „miejskiej wyspy ciepła”. Stanowi zmodyfikowaną wersję zielonego dachu, który jest w stanie zatrzymywać wody opadowe w roślinności i warstwie gleby, zwiększając ewapotranspirację, przez co obniża temperaturę danego obszaru. W celach badawczych zainstalowano zielono-niebieski dach na budynku szkoły średniej Cheong- -un w Seulu, w Korei. Analizowano i porównywano temperatury dachu kontrolnego i dachu zielono-niebieskiego. Uzyskane wyniki wskazują, że temperaturę powierzchni zielono-niebieskiego dachu była znacznie niższa niż temperatura kontrolnego dachu w tych samych warunkach pogodowych. Różnice temperatur wynosiły od 5 do 9°C.
Wydawca
Czasopismo
Rocznik
Tom
Strony
165--170
Opis fizyczny
Bibliogr. 27 poz., rys.
Twórcy
autor
- Department of Construction Environment Engineering, Korea Institute of Civil Engineering and Building Technology Campus, University of Science and Technology, 283, Goyangdae-Ro, Ilsanseo-Gu, Goyang-Si, Geonggi-Do, Republic of Korea
autor
- Department of Construction Environment Engineering, Korea Institute of Civil Engineering and Building Technology Campus, University of Science and Technology, 283, Goyangdae-Ro, Ilsanseo-Gu, Goyang-Si, Geonggi-Do, Republic of Korea
- Environmental and Plant Engineering Research Institute, Korea Institute of Civil Engineering and Building Technology, 283, Goyangdae-Ro, Ilsanseo-Gu, Goyang-Si, Gyeonggi-Do, 10223, Republic of Korea
Bibliografia
- ADINNA E., CHRISTIAN E.I., OKOLIE A.T. 2009. Assessment of urban heat island and possible adaptations in Enugu urban using landsat-ETM. Journal of Geography and Regional Planning. Vol. 2. Iss. 2 p. 30–36.
- AKBARI H., KONOPACKI S. 2004. Energy effects of heatisland reduction strategies in Toronto, Canada. Energy. Vol. 29. Iss. 2 p. 191–210.
- AKBARI H., KONOPACKI S. 2005. Calculating energy-saving potentials of heat-island reduction strategies. Energy Policy. Vol. 33. Iss. 6 p. 721–756.
- AKBARI H., POMERANTZ M., TAHA H. 2001. Cool surfaces and shade trees to reduce energy use and improve air quality in urban areas. Solar Energy. Vol. 70. Iss. 3 p. 295–310.
- ARABI R., SHAHIDAN M.F., KAMAL M.M., JAAFAR M.F.Z.B., RAKHSHANDEHROO M. 2015. Mitigating urban heat island through green roofs. Current World Environment. Vol. 10. Sp. iss. 1 p. 918–927.
- FENG Y., WANG P., WU Z. 2013. Research on the ecological effects for different types of green roofs in Chongqing. Journal of South China Agricultural University. Vol. 7. Iss. 12 p. 17–28.
- GRIMMOND S. 2007. Urbanization and global environmental change: Local effects of urban warming. Geographical Journal. Vol. 173. Iss. 1 p. 83–88.
- HOSSAIN N., BAHAUDDIN K.M. 2013. Integrated water resource management for mega city: A case study of Dhaka city, Bangladesh. Journal of Water and Land Development. No. 19 p. 39–45.
- LABFACILITY Ltd. 2016. Temperature and process technology, UK [online]. [Access 25.12.2016]. Available at: https://www.labfacility.com
- LI D., BOU-ZEID E., OPPENHEIMER M. 2014. The effectiveness of cool and green roofs as urban heat island mitigation strategies. Environmental Research Letters. Vol. 9. No. 5 055002 p. 1–16.
- LUO Z. 2009. Research on the power savings effects and thermal property of light weighted green roof in Shenzhen. Chongqing. Chongqing University Press.
- 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. Vol. 33. Iss. 7 p. 719–729.
- NURUZZAMAN MD. 2015. Urban heat island: Causes, effects and mitigation measures – A review. International Journal of Environmental Monitoring and Analysis. Vol. 3. Iss. 2 p. 67–73.
- ODLI Z.S.M., ZAKARYA I.A., MOHD F.N., IZHAR T.N.T., IBRAHIM N.M., MOHAMAD N. 2016. Green roof technology-mitigate urban heat island (UHI) effect. MATEC Web of Conferences. Vol. 78 art. 01100 p. 1–7.
- PENG L.L., JIM C.Y. 2013. Green-roof effects on neighborhood microclimate and human thermal sensation. Energies. Vol. 6. Iss. 2 p. 598–618.
- SAIZ S., KENNEDY C., BRASS B., PRESSNAIL K. 2016. Comparative life cycle assessment of standard and green roof. Environmental Science and Technology. Vol. 40. Iss. 13 p. 4312–4316.
- SANTAMOURIS M. 2014. Cooling the cities – A review of reflective and green roof mitigation technologies to fight heat island and improve comfort in urban environments. Solar Energy. Vol. 103 p. 682–703.
- SANTOS F. 2013. Trees – the natural air conditioners [online]. Scientific Scribbles. The University of Melbourne. [Assessment 25.12.2016]. Available at: https://blogs.unimelb.edu.au/sciencecommunication/2013/08/23/trees-the-natural-air-conditioners/
- SHAFIQUE M., LEE D., KIM R. 2016. A field study to evaluate runoff quantity from blue roof and green blue roof in an urban area. International Journal of Control and Automation. Vol. 9. Iss. 8 p. 59–68.
- SHARMA A., CONRY P., FERNANDO H.J.S., HAMLET A.F., HELLMANN J.J., CHEN F. 2016. Green and cool roofs to mitigate urban heat island effects in the Chicago metropolitan area: Evaluation with a regional climate model. Environmental Research Letters. Vol. 11. Iss. 6 art. 064004 p. 1–15.
- SHISHEGAR N. 2014. The impact of green areas on mitigating urban heat island effect: A review. International Journal of Environmental Sustainability. Vol. 9. Iss. 1 p. 119–130.
- STOVIN V., VESUVIANO G., KASMIN H. 2012. The hydrological performance of a green roof test bed under UK climatic conditions. Journal of Hydrology. Vol. 414–415 p. 148–161.
- SURMA M. 2015. Sustainable urban development through an application of green infrastructure in district scale – A case study of Wrocław (Poland). Journal of Water and Land Development. No. 25 p. 3–12.
- TAKEBAYASHI H., MORIYAMA M. 2007. Surface heat budget on green roof and high reflection roof for mitigation of urban heat island. Building and Environment. Vol. 42. Iss. 8 p. 2971–2979.
- TANG M., YANG Z., LI L. 2007. Thermal characteristic of natural grass land style green roof. HW Ventilation on Chinese HVAC Journal. Vol. 37. No. 3 p. 1–4.
- XIAO M., LIN Y., HAN J., ZHANG G. 2014. A review of green roof research and development in China. Renewable and Sustainable Energy Reviews. Vol. 40 p. 633–648.
- YIN L., LI S. 2007. Temperature character of roof greening on low energy demo building of Tsinghua University. Scientia Silvae Sinica. Vol. 43. Iss. 8 p. 143–147.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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