Progress in urban greenery mitigation science – assessment methodologies advanced technologies and impact on cities
Urban greenery is a natural solution to cool cities and provide comfort, clean air and significant social, health and economic benefits. This paper aims to present the latest progress on the field of greenery urban mitigation techniques including aspects related to the theoretical and experimental...
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Vilnius Gediminas Technical University
2018-11-01
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doaj-504d2a4739a248218de93e209741eea92021-07-02T09:18:59ZengVilnius Gediminas Technical UniversityJournal of Civil Engineering and Management1392-37301822-36052018-11-0124810.3846/jcem.2018.6604Progress in urban greenery mitigation science – assessment methodologies advanced technologies and impact on citiesMat Santamouris0George Ban-Weiss1Paul Osmond2Riccardo Paolini3Afroditi Synnefa4Constantinos Cartalis5Alberto Muscio6Michele Zinzi7Tobi Eniolu Morakinyo8Edward Ng9Zheng Tan10Hideki Takebayashi11David Sailor12P. Crank13Haider Taha14Anna Laura Pisello15Federico Rossi16Jiong Zhang17Denia Kolokotsa18Faculty Built Environment, UNSW, Sydney, AustraliaUniversity of Southern California, USAFaculty Built Environment, UNSW, Sydney, AustraliaFaculty Built Environment, UNSW, Sydney, AustraliaFaculty Built Environment, UNSW, Sydney, AustraliaPhysics Department, University of Athens, GreeceUniversity of Modena and Reggio Emilia, ItalyENEA, ItalyInstitute of Future Cities, Chinese University of Hong KongInstitute of Future Cities, Chinese University of Hong Kong; School of Architecture, Chinese University of Hong KongInstitute of Future Cities, Chinese University of Hong KongKobe University, JapanArizona State University, USAArizona State University, USAAltostratus Inc., USAUniversity of Perugia, ItalyUniversity of Perugia, ItalyUniversity of Southern California, USATechnical University Crete, Greece Urban greenery is a natural solution to cool cities and provide comfort, clean air and significant social, health and economic benefits. This paper aims to present the latest progress on the field of greenery urban mitigation techniques including aspects related to the theoretical and experimental assessment of the greenery cooling potential, the impact on urban vegetation on energy, health and comfort and the acquired knowledge on the best integration of the various types of greenery in the urban frame. Also to present the recent knowledge on the impact of climate change on the cooling performance of urban vegetation and investigate and analyse possible technological solutions to face the impact of high ambient temperatures. https://www.bme.vgtu.lt/index.php/JCEM/article/view/6604urban heat islandclimate changecooling citiesurban greenerymitigation and adaptationtrees and forests |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Mat Santamouris George Ban-Weiss Paul Osmond Riccardo Paolini Afroditi Synnefa Constantinos Cartalis Alberto Muscio Michele Zinzi Tobi Eniolu Morakinyo Edward Ng Zheng Tan Hideki Takebayashi David Sailor P. Crank Haider Taha Anna Laura Pisello Federico Rossi Jiong Zhang Denia Kolokotsa |
spellingShingle |
Mat Santamouris George Ban-Weiss Paul Osmond Riccardo Paolini Afroditi Synnefa Constantinos Cartalis Alberto Muscio Michele Zinzi Tobi Eniolu Morakinyo Edward Ng Zheng Tan Hideki Takebayashi David Sailor P. Crank Haider Taha Anna Laura Pisello Federico Rossi Jiong Zhang Denia Kolokotsa Progress in urban greenery mitigation science – assessment methodologies advanced technologies and impact on cities Journal of Civil Engineering and Management urban heat island climate change cooling cities urban greenery mitigation and adaptation trees and forests |
author_facet |
Mat Santamouris George Ban-Weiss Paul Osmond Riccardo Paolini Afroditi Synnefa Constantinos Cartalis Alberto Muscio Michele Zinzi Tobi Eniolu Morakinyo Edward Ng Zheng Tan Hideki Takebayashi David Sailor P. Crank Haider Taha Anna Laura Pisello Federico Rossi Jiong Zhang Denia Kolokotsa |
author_sort |
Mat Santamouris |
title |
Progress in urban greenery mitigation science – assessment methodologies advanced technologies and impact on cities |
title_short |
Progress in urban greenery mitigation science – assessment methodologies advanced technologies and impact on cities |
title_full |
Progress in urban greenery mitigation science – assessment methodologies advanced technologies and impact on cities |
title_fullStr |
Progress in urban greenery mitigation science – assessment methodologies advanced technologies and impact on cities |
title_full_unstemmed |
Progress in urban greenery mitigation science – assessment methodologies advanced technologies and impact on cities |
title_sort |
progress in urban greenery mitigation science – assessment methodologies advanced technologies and impact on cities |
publisher |
Vilnius Gediminas Technical University |
series |
Journal of Civil Engineering and Management |
issn |
1392-3730 1822-3605 |
publishDate |
2018-11-01 |
description |
Urban greenery is a natural solution to cool cities and provide comfort, clean air and significant social, health and economic benefits. This paper aims to present the latest progress on the field of greenery urban mitigation techniques including aspects related to the theoretical and experimental assessment of the greenery cooling potential, the impact on urban vegetation on energy, health and comfort and the acquired knowledge on the best integration of the various types of greenery in the urban frame. Also to present the recent knowledge on the impact of climate change on the cooling performance of urban vegetation and investigate and analyse possible technological solutions to face the impact of high ambient temperatures.
|
topic |
urban heat island climate change cooling cities urban greenery mitigation and adaptation trees and forests |
url |
https://www.bme.vgtu.lt/index.php/JCEM/article/view/6604 |
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