Urban greening as a tool for urban heat island mitigation - a survey of research methodologies in different climatic regions

Hadas Saaroni; Jorge H. Amorim; Jelle A. Hiemstra; David Pearlmutter

Urban greening as a tool for urban heat island mitigation - a survey of research methodologies in different climatic regions

Hadas Saaroni, Jorge H. Amorim, Jelle A. Hiemstra, David Pearlmutter

The Swiss Institute for Dryland Environmental and Energy Research

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Urban Green Infrastructure (UGI), tree coverage in particular, possesses great mitigating potential for the urban heat island (UHI) effect and considerable capability of enhancement of human comfort. This is a survey of 90 studies dealing with UGI in Mediterranean, arid, Atlantic and Boreal climates. Quantification of the UGI cooling effect is the most popular methodology used, in particular the intensity of park cool islands, and the cooling effect of street trees. Field experiments serve as the dominant approach, mostly micro-scale, with time-scales of a few days at most. About 1/3 of the studies use numerical models, estimating UGI contribution to human comfort, but less than 20% apply questionnaires to evaluate subjective perception of this comfort. In spite of the dominant effectivity of urban trees, very few studies deal with evaluation of particular tree species, their shading effect and the influence of foliage type and extent. The most commonly measured variable is air temperature. Solar radiation, surface temperature, humidity and wind speed are used for studies on thermal comfort and modelling. The survey exposed the lack of research of UGI&UHI interplay on regional and city scales, as also on the cooling potential of green walls and roofs.

Original language	English
Title of host publication	Proceedings of 33rd PLEA International Conference
Subtitle of host publication	Design to Thrive, PLEA 2017
Editors	Luisa Brotas, Sue Roaf, Fergus Nicol
Publisher	NCEUB 2017 - Network for Comfort and Energy Use in Buildings
Pages	2896-2903
Number of pages	8
ISBN (Electronic)	9780992895754
State	Published - 1 Jan 2017
Event	33rd International on Passive and Low Energy Architecture Conference: Design to Thrive, PLEA 2017 - Edinburgh, United Kingdom Duration: 2 Jul 2017 → 5 Jul 2017

Publication series

Name	Proceedings of 33rd PLEA International Conference: Design to Thrive, PLEA 2017
Volume	2

Conference

Conference	33rd International on Passive and Low Energy Architecture Conference: Design to Thrive, PLEA 2017
Country/Territory	United Kingdom
City	Edinburgh
Period	2/07/17 → 5/07/17

Keywords

Park Cool Island
Thermal Comfort
Urban Forest
Urban Green Infrastructure
Urban Heat Island

ASJC Scopus subject areas

Energy Engineering and Power Technology
Renewable Energy, Sustainability and the Environment

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Cite this

Saaroni, H., Amorim, J. H., Hiemstra, J. A., & Pearlmutter, D. (2017). Urban greening as a tool for urban heat island mitigation - a survey of research methodologies in different climatic regions. In L. Brotas, S. Roaf, & F. Nicol (Eds.), Proceedings of 33rd PLEA International Conference: Design to Thrive, PLEA 2017 (pp. 2896-2903). (Proceedings of 33rd PLEA International Conference: Design to Thrive, PLEA 2017; Vol. 2). NCEUB 2017 - Network for Comfort and Energy Use in Buildings.

Saaroni, Hadas ; Amorim, Jorge H. ; Hiemstra, Jelle A. et al. / Urban greening as a tool for urban heat island mitigation - a survey of research methodologies in different climatic regions. Proceedings of 33rd PLEA International Conference: Design to Thrive, PLEA 2017. editor / Luisa Brotas ; Sue Roaf ; Fergus Nicol. NCEUB 2017 - Network for Comfort and Energy Use in Buildings, 2017. pp. 2896-2903 (Proceedings of 33rd PLEA International Conference: Design to Thrive, PLEA 2017).

@inproceedings{26bf70b9490142ceb888f9b7d09a6135,

title = "Urban greening as a tool for urban heat island mitigation - a survey of research methodologies in different climatic regions",

abstract = "Urban Green Infrastructure (UGI), tree coverage in particular, possesses great mitigating potential for the urban heat island (UHI) effect and considerable capability of enhancement of human comfort. This is a survey of 90 studies dealing with UGI in Mediterranean, arid, Atlantic and Boreal climates. Quantification of the UGI cooling effect is the most popular methodology used, in particular the intensity of park cool islands, and the cooling effect of street trees. Field experiments serve as the dominant approach, mostly micro-scale, with time-scales of a few days at most. About 1/3 of the studies use numerical models, estimating UGI contribution to human comfort, but less than 20% apply questionnaires to evaluate subjective perception of this comfort. In spite of the dominant effectivity of urban trees, very few studies deal with evaluation of particular tree species, their shading effect and the influence of foliage type and extent. The most commonly measured variable is air temperature. Solar radiation, surface temperature, humidity and wind speed are used for studies on thermal comfort and modelling. The survey exposed the lack of research of UGI&UHI interplay on regional and city scales, as also on the cooling potential of green walls and roofs.",

keywords = "Park Cool Island, Thermal Comfort, Urban Forest, Urban Green Infrastructure, Urban Heat Island",

author = "Hadas Saaroni and Amorim, {Jorge H.} and Hiemstra, {Jelle A.} and David Pearlmutter",

note = "Publisher Copyright: Copyright {\textcopyright} NCEUB 2017. Copyright: Copyright 2020 Elsevier B.V., All rights reserved.; 33rd International on Passive and Low Energy Architecture Conference: Design to Thrive, PLEA 2017 ; Conference date: 02-07-2017 Through 05-07-2017",

year = "2017",

month = jan,

day = "1",

language = "English",

series = "Proceedings of 33rd PLEA International Conference: Design to Thrive, PLEA 2017",

publisher = "NCEUB 2017 - Network for Comfort and Energy Use in Buildings",

pages = "2896--2903",

editor = "Luisa Brotas and Sue Roaf and Fergus Nicol",

booktitle = "Proceedings of 33rd PLEA International Conference",

}

Saaroni, H, Amorim, JH, Hiemstra, JA & Pearlmutter, D 2017, Urban greening as a tool for urban heat island mitigation - a survey of research methodologies in different climatic regions. in L Brotas, S Roaf & F Nicol (eds), Proceedings of 33rd PLEA International Conference: Design to Thrive, PLEA 2017. Proceedings of 33rd PLEA International Conference: Design to Thrive, PLEA 2017, vol. 2, NCEUB 2017 - Network for Comfort and Energy Use in Buildings, pp. 2896-2903, 33rd International on Passive and Low Energy Architecture Conference: Design to Thrive, PLEA 2017, Edinburgh, United Kingdom, 2/07/17.

Urban greening as a tool for urban heat island mitigation - a survey of research methodologies in different climatic regions. / Saaroni, Hadas; Amorim, Jorge H.; Hiemstra, Jelle A. et al.
Proceedings of 33rd PLEA International Conference: Design to Thrive, PLEA 2017. ed. / Luisa Brotas; Sue Roaf; Fergus Nicol. NCEUB 2017 - Network for Comfort and Energy Use in Buildings, 2017. p. 2896-2903 (Proceedings of 33rd PLEA International Conference: Design to Thrive, PLEA 2017; Vol. 2).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Urban greening as a tool for urban heat island mitigation - a survey of research methodologies in different climatic regions

AU - Saaroni, Hadas

AU - Amorim, Jorge H.

AU - Hiemstra, Jelle A.

AU - Pearlmutter, David

PY - 2017/1/1

Y1 - 2017/1/1

N2 - Urban Green Infrastructure (UGI), tree coverage in particular, possesses great mitigating potential for the urban heat island (UHI) effect and considerable capability of enhancement of human comfort. This is a survey of 90 studies dealing with UGI in Mediterranean, arid, Atlantic and Boreal climates. Quantification of the UGI cooling effect is the most popular methodology used, in particular the intensity of park cool islands, and the cooling effect of street trees. Field experiments serve as the dominant approach, mostly micro-scale, with time-scales of a few days at most. About 1/3 of the studies use numerical models, estimating UGI contribution to human comfort, but less than 20% apply questionnaires to evaluate subjective perception of this comfort. In spite of the dominant effectivity of urban trees, very few studies deal with evaluation of particular tree species, their shading effect and the influence of foliage type and extent. The most commonly measured variable is air temperature. Solar radiation, surface temperature, humidity and wind speed are used for studies on thermal comfort and modelling. The survey exposed the lack of research of UGI&UHI interplay on regional and city scales, as also on the cooling potential of green walls and roofs.

AB - Urban Green Infrastructure (UGI), tree coverage in particular, possesses great mitigating potential for the urban heat island (UHI) effect and considerable capability of enhancement of human comfort. This is a survey of 90 studies dealing with UGI in Mediterranean, arid, Atlantic and Boreal climates. Quantification of the UGI cooling effect is the most popular methodology used, in particular the intensity of park cool islands, and the cooling effect of street trees. Field experiments serve as the dominant approach, mostly micro-scale, with time-scales of a few days at most. About 1/3 of the studies use numerical models, estimating UGI contribution to human comfort, but less than 20% apply questionnaires to evaluate subjective perception of this comfort. In spite of the dominant effectivity of urban trees, very few studies deal with evaluation of particular tree species, their shading effect and the influence of foliage type and extent. The most commonly measured variable is air temperature. Solar radiation, surface temperature, humidity and wind speed are used for studies on thermal comfort and modelling. The survey exposed the lack of research of UGI&UHI interplay on regional and city scales, as also on the cooling potential of green walls and roofs.

KW - Park Cool Island

KW - Thermal Comfort

KW - Urban Forest

KW - Urban Green Infrastructure

KW - Urban Heat Island

UR - http://www.scopus.com/inward/record.url?scp=85085922136&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:85085922136

T3 - Proceedings of 33rd PLEA International Conference: Design to Thrive, PLEA 2017

SP - 2896

EP - 2903

BT - Proceedings of 33rd PLEA International Conference

A2 - Brotas, Luisa

A2 - Roaf, Sue

A2 - Nicol, Fergus

PB - NCEUB 2017 - Network for Comfort and Energy Use in Buildings

T2 - 33rd International on Passive and Low Energy Architecture Conference: Design to Thrive, PLEA 2017

Y2 - 2 July 2017 through 5 July 2017

ER -

Saaroni H, Amorim JH, Hiemstra JA, Pearlmutter D. Urban greening as a tool for urban heat island mitigation - a survey of research methodologies in different climatic regions. In Brotas L, Roaf S, Nicol F, editors, Proceedings of 33rd PLEA International Conference: Design to Thrive, PLEA 2017. NCEUB 2017 - Network for Comfort and Energy Use in Buildings. 2017. p. 2896-2903. (Proceedings of 33rd PLEA International Conference: Design to Thrive, PLEA 2017).

Urban greening as a tool for urban heat island mitigation - a survey of research methodologies in different climatic regions

Abstract

Publication series

Conference

Keywords

ASJC Scopus subject areas

UN SDGs

Other files and links

Fingerprint

Cite this