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Renaturing a microclimate : the impact of greening a neighbourhood on indoor thermal comfort during a heatwave in Manchester, UK

Taleghani, M; Marshall, AS; Fitton, R; Swan, W

Renaturing a microclimate : the impact of greening a neighbourhood on indoor thermal comfort during a heatwave in Manchester, UK Thumbnail


Authors

M Taleghani

AS Marshall



Abstract

Higher air temperatures in large cities like Manchester, UK, reduce human thermal comfort. In this paper, the impact of land cover on microclimate, and consequently on indoor thermal comfort is studied. Through different stages, field measurements and computer modelling were carried out for a heat wave episode in summer 2017 in Manchester:
First, the urban heat island (UHI) was measured between the city centre of Manchester and the campus of the University of Salford (between May to October 2017). Maximum detected UHI was 2.3 °C at 4:00, during the hottest day of the summer. Parallel measurements within the university campus showed that the park was 0.9 °C cooler than the paved areas (maximum cooling effect was 3.6 °C at 14:45).
Finally, the impact of the current land cover of the campus, and a greener land cover (as a renaturing scenario) with more planted trees on indoor thermal comfort of a house within the campus was studied. It was found that by adding 17% more trees to the campus, indoor thermal comfort was improved by 20.8% during the hottest day of 2017 in Manchester. These showed that renaturing cities could be a solution for future warmer climates.

Citation

Taleghani, M., Marshall, A., Fitton, R., & Swan, W. (2019). Renaturing a microclimate : the impact of greening a neighbourhood on indoor thermal comfort during a heatwave in Manchester, UK. Solar Energy, 182, 245-255. https://doi.org/10.1016/j.solener.2019.02.062

Journal Article Type Article
Acceptance Date Feb 24, 2019
Online Publication Date Feb 27, 2019
Publication Date Apr 1, 2019
Deposit Date Feb 28, 2019
Publicly Available Date Feb 27, 2020
Journal Solar Energy
Print ISSN 0038-092X
Publisher Elsevier
Volume 182
Pages 245-255
DOI https://doi.org/10.1016/j.solener.2019.02.062
Publisher URL https://doi.org/10.1016/j.solener.2019.02.062
Related Public URLs https://www.sciencedirect.com/journal/solar-energy/vol/182/suppl/C

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