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Cool roofs could be most effective at reducing outdoor urban temperatures in London compared with other roof top and vegetation interventions: a mesoscale urban climate modelling study
  • +4
  • Oscar Brousse,
  • Charles H. Simpson,
  • Andrea Zonato,
  • Alberto Martilli,
  • Jonathon Taylor,
  • Michael Davies,
  • Clare Heaviside
Oscar Brousse
University College London

Corresponding Author:[email protected]

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Charles H. Simpson
University College London
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Andrea Zonato
Atmospheric Physics Group, Department of Civil, Environmental and Mechanical Engineering, University of Trento, Trento, Italy
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Alberto Martilli
CIEMAT
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Jonathon Taylor
Tampere University
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Michael Davies
Design and Engineering, The Bartlett Faculty of the Built Environment, University College London
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Clare Heaviside
University College London
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Abstract

Comprehensive studies comparing impacts of building and street levels interventions on air temperature at metropolitan scales are still lacking despite increased urban heat-related mortality and morbidity. We therefore model the impact of 9 interventions on air temperatures at 2 m during 2 hot days from the summer 2018 in the Greater London Authority area using the WRF BEP-BEM climate model. We find that on average cool roofs most effectively reduce temperatures (~ -1.2°C), outperforming green roofs (~ 0°C), solar panels (~ -0.3°C) and street level vegetation (~ -0.3°C). Application of air conditioning across London increase air temperatures by ~ +0.15°C but related energetic consumption could be covered by energy production from solar panels. Current realistic deployments of green roofs and solar panels are ineffective at large scale reduction of temperatures. We provide a detailed decomposition of the surface energy balance to explain changes in air temperature and guide future decision-making.
17 Sep 2023Submitted to ESS Open Archive
25 Sep 2023Published in ESS Open Archive