Resilient cooling strategies – A critical review and qualitative assessment

Chen Zhang; Ongun Berk Kazanci; Ronnen Levinson; Per Heiselberg; Bjarne W. Olesen; Giacomo Chiesa; Behzad Sodagar; Zhengtao Ai; Stephen Selkowitz; Michele Zinzi; Ardeshir Mahdavi; Helene Teufl; Maria Kolokotroni; Agnese Salvati; Emmanuel Bozonnet; Feryal Chtioui; Patrick Salagnac; Ramin Rahif; Shady Attia; Vincent Lemort; Essam Elnagar; Hilde Breesch; Abantika Sengupta; Liangzhu Leon Wang; Dahai Qi; Philipp Stern; Nari Yoon; Dragos-Ioan Bogatu; Ricardo Forgiarini Rupp; Taha Arghand; Saqib Javed; Jan Akander; Abolfazl Hayati; Mathias Cehlin; Sana Sayadi; Sadegh Forghani; Hui Zhang; Edward Arens; Guoqiang Zhang

doi:10.1016/j.enbuild.2021.111312

Resilient cooling strategies – A critical review and qualitative assessment

Chen Zhang, Ongun Berk Kazanci, Ronnen Levinson, Per Heiselberg, Bjarne W. Olesen, Giacomo Chiesa, Behzad Sodagar, Zhengtao Ai, Stephen Selkowitz, Michele Zinzi, Ardeshir Mahdavi, Helene Teufl, Maria Kolokotroni, Agnese Salvati, Emmanuel Bozonnet, Feryal Chtioui, Patrick Salagnac, Ramin Rahif, Shady Attia, Vincent LemortEssam Elnagar, Hilde Breesch, Abantika Sengupta, Liangzhu Leon Wang, Dahai Qi, Philipp Stern, Nari Yoon, Dragos-Ioan Bogatu, Ricardo Forgiarini Rupp, Taha Arghand, Saqib Javed, Jan Akander, Abolfazl Hayati, Mathias Cehlin, Sana Sayadi, Sadegh Forghani, Hui Zhang, Edward Arens, Guoqiang Zhang

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Abstract

The global effects of climate change will increase the frequency and intensity of extreme events such as heatwaves and power outages, which have consequences for buildings and their cooling systems. Buildings and their cooling systems should be designed and operated to be resilient under such events to protect occupants from potentially dangerous indoor thermal conditions.
This study performed a critical review on the state-of-the-art of cooling strategies, with special attention to their performance under heatwaves and power outages. We proposed a definition of resilient cooling and described four criteria for resilience—absorptive capacity, adaptive capacity, restorative capacity, and recovery speed —and used them to qualitatively evaluate the resilience of each strategy.
The literature review and qualitative analyses show that to attain resilient cooling, the four resilience criteria should be considered in the design phase of a building or during the planning of retrofits. The building and relevant cooling system characteristics should be considered simultaneously to withstand extreme events. A combination of strategies with different resilience capacities, such as a passive envelope strategy coupled with a low-energy space-cooling solution, may be needed to obtain resilient cooling. Finally, a further direction for a quantitative assessment approach has been pointed out.

Original language	English
Article number	111312
Journal	Energy and Buildings
Volume	251
Number of pages	22
ISSN	0378-7788
DOIs	https://doi.org/10.1016/j.enbuild.2021.111312
Publication status	Published - Nov 2021

Keywords

Building cooling
Resilient
Climate change
Heatwave
Power outage
Qualitative analysis
Passive cooling
Active cooling
Low-energy cooling
Critical review

UN SDGs

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

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Open Access versionFinal published version, 1.27 MBLicence: CC BY 4.0

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Cite this

Zhang, C., Kazanci, O. B., Levinson, R., Heiselberg, P., Olesen, B. W., Chiesa, G., Sodagar, B., Ai, Z., Selkowitz, S., Zinzi, M., Mahdavi, A., Teufl, H., Kolokotroni, M., Salvati, A., Bozonnet, E., Chtioui, F., Salagnac, P., Rahif, R., Attia, S., ... Zhang, G. (2021). Resilient cooling strategies – A critical review and qualitative assessment. Energy and Buildings, 251, Article 111312. https://doi.org/10.1016/j.enbuild.2021.111312

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title = "Resilient cooling strategies – A critical review and qualitative assessment",

abstract = "The global effects of climate change will increase the frequency and intensity of extreme events such as heatwaves and power outages, which have consequences for buildings and their cooling systems. Buildings and their cooling systems should be designed and operated to be resilient under such events to protect occupants from potentially dangerous indoor thermal conditions.This study performed a critical review on the state-of-the-art of cooling strategies, with special attention to their performance under heatwaves and power outages. We proposed a definition of resilient cooling and described four criteria for resilience—absorptive capacity, adaptive capacity, restorative capacity, and recovery speed —and used them to qualitatively evaluate the resilience of each strategy.The literature review and qualitative analyses show that to attain resilient cooling, the four resilience criteria should be considered in the design phase of a building or during the planning of retrofits. The building and relevant cooling system characteristics should be considered simultaneously to withstand extreme events. A combination of strategies with different resilience capacities, such as a passive envelope strategy coupled with a low-energy space-cooling solution, may be needed to obtain resilient cooling. Finally, a further direction for a quantitative assessment approach has been pointed out.",

keywords = "Building cooling, Resilient, Climate change, Heatwave, Power outage, Qualitative analysis, Passive cooling, Active cooling, Low-energy cooling, Critical review, Building cooling, Resilient, Climate change, Heatwave, Power outage, Qualitative analysis, Passive cooling, Active cooling, Low-energy cooling, Critical review",

author = "Chen Zhang and Kazanci, {Ongun Berk} and Ronnen Levinson and Per Heiselberg and Olesen, {Bjarne W.} and Giacomo Chiesa and Behzad Sodagar and Zhengtao Ai and Stephen Selkowitz and Michele Zinzi and Ardeshir Mahdavi and Helene Teufl and Maria Kolokotroni and Agnese Salvati and Emmanuel Bozonnet and Feryal Chtioui and Patrick Salagnac and Ramin Rahif and Shady Attia and Vincent Lemort and Essam Elnagar and Hilde Breesch and Abantika Sengupta and Wang, {Liangzhu Leon} and Dahai Qi and Philipp Stern and Nari Yoon and Dragos-Ioan Bogatu and Rupp, {Ricardo Forgiarini} and Taha Arghand and Saqib Javed and Jan Akander and Abolfazl Hayati and Mathias Cehlin and Sana Sayadi and Sadegh Forghani and Hui Zhang and Edward Arens and Guoqiang Zhang",

year = "2021",

month = nov,

doi = "10.1016/j.enbuild.2021.111312",

language = "English",

volume = "251",

journal = "Energy and Buildings",

issn = "0378-7788",

publisher = "Elsevier",

}

Zhang, C, Kazanci, OB, Levinson, R, Heiselberg, P, Olesen, BW, Chiesa, G, Sodagar, B, Ai, Z, Selkowitz, S, Zinzi, M, Mahdavi, A, Teufl, H, Kolokotroni, M, Salvati, A, Bozonnet, E, Chtioui, F, Salagnac, P, Rahif, R, Attia, S, Lemort, V, Elnagar, E, Breesch, H, Sengupta, A, Wang, LL, Qi, D, Stern, P, Yoon, N, Bogatu, D-I, Rupp, RF, Arghand, T, Javed, S, Akander, J, Hayati, A, Cehlin, M, Sayadi, S, Forghani, S, Zhang, H, Arens, E & Zhang, G 2021, 'Resilient cooling strategies – A critical review and qualitative assessment', Energy and Buildings, vol. 251, 111312. https://doi.org/10.1016/j.enbuild.2021.111312

TY - JOUR

T1 - Resilient cooling strategies – A critical review and qualitative assessment

AU - Zhang, Chen

AU - Kazanci, Ongun Berk

AU - Levinson, Ronnen

AU - Heiselberg, Per

AU - Olesen, Bjarne W.

AU - Chiesa, Giacomo

AU - Sodagar, Behzad

AU - Ai, Zhengtao

AU - Selkowitz, Stephen

AU - Zinzi, Michele

AU - Mahdavi, Ardeshir

AU - Teufl, Helene

AU - Kolokotroni, Maria

AU - Salvati, Agnese

AU - Bozonnet, Emmanuel

AU - Chtioui, Feryal

AU - Salagnac, Patrick

AU - Rahif, Ramin

AU - Attia, Shady

AU - Lemort, Vincent

AU - Elnagar, Essam

AU - Breesch, Hilde

AU - Sengupta, Abantika

AU - Wang, Liangzhu Leon

AU - Qi, Dahai

AU - Stern, Philipp

AU - Yoon, Nari

AU - Bogatu, Dragos-Ioan

AU - Rupp, Ricardo Forgiarini

AU - Arghand, Taha

AU - Javed, Saqib

AU - Akander, Jan

AU - Hayati, Abolfazl

AU - Cehlin, Mathias

AU - Sayadi, Sana

AU - Forghani, Sadegh

AU - Zhang, Hui

AU - Arens, Edward

AU - Zhang, Guoqiang

PY - 2021/11

Y1 - 2021/11

N2 - The global effects of climate change will increase the frequency and intensity of extreme events such as heatwaves and power outages, which have consequences for buildings and their cooling systems. Buildings and their cooling systems should be designed and operated to be resilient under such events to protect occupants from potentially dangerous indoor thermal conditions.This study performed a critical review on the state-of-the-art of cooling strategies, with special attention to their performance under heatwaves and power outages. We proposed a definition of resilient cooling and described four criteria for resilience—absorptive capacity, adaptive capacity, restorative capacity, and recovery speed —and used them to qualitatively evaluate the resilience of each strategy.The literature review and qualitative analyses show that to attain resilient cooling, the four resilience criteria should be considered in the design phase of a building or during the planning of retrofits. The building and relevant cooling system characteristics should be considered simultaneously to withstand extreme events. A combination of strategies with different resilience capacities, such as a passive envelope strategy coupled with a low-energy space-cooling solution, may be needed to obtain resilient cooling. Finally, a further direction for a quantitative assessment approach has been pointed out.

AB - The global effects of climate change will increase the frequency and intensity of extreme events such as heatwaves and power outages, which have consequences for buildings and their cooling systems. Buildings and their cooling systems should be designed and operated to be resilient under such events to protect occupants from potentially dangerous indoor thermal conditions.This study performed a critical review on the state-of-the-art of cooling strategies, with special attention to their performance under heatwaves and power outages. We proposed a definition of resilient cooling and described four criteria for resilience—absorptive capacity, adaptive capacity, restorative capacity, and recovery speed —and used them to qualitatively evaluate the resilience of each strategy.The literature review and qualitative analyses show that to attain resilient cooling, the four resilience criteria should be considered in the design phase of a building or during the planning of retrofits. The building and relevant cooling system characteristics should be considered simultaneously to withstand extreme events. A combination of strategies with different resilience capacities, such as a passive envelope strategy coupled with a low-energy space-cooling solution, may be needed to obtain resilient cooling. Finally, a further direction for a quantitative assessment approach has been pointed out.

KW - Building cooling

KW - Resilient

KW - Climate change

KW - Heatwave

KW - Power outage

KW - Qualitative analysis

KW - Passive cooling

KW - Active cooling

KW - Low-energy cooling

KW - Critical review

KW - Building cooling

KW - Resilient

KW - Climate change

KW - Heatwave

KW - Power outage

KW - Qualitative analysis

KW - Passive cooling

KW - Active cooling

KW - Low-energy cooling

KW - Critical review

UR - http://www.scopus.com/inward/record.url?scp=85112784297&partnerID=8YFLogxK

U2 - 10.1016/j.enbuild.2021.111312

DO - 10.1016/j.enbuild.2021.111312

M3 - Journal article

SN - 0378-7788

VL - 251

JO - Energy and Buildings

JF - Energy and Buildings

M1 - 111312

ER -

Resilient cooling strategies – A critical review and qualitative assessment

Abstract

Keywords

UN SDGs

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