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Impact of local buildings on flow and dispersion over a heterogeneous neighbourhood urban area

Impact of local buildings on flow and dispersion over a heterogeneous neighbourhood urban area
Impact of local buildings on flow and dispersion over a heterogeneous neighbourhood urban area
This study is a part of the joint ASSURE project involving the Universities of Reading, Bristol, Southampton, Surrey, and Imperial College, funded though the UK NERC Highlight Scheme. The atmospheric airflows and dispersions over a heterogeneous neighbourhood urban area covering the University of Bristol campus and the nearby residential areas were investigated using the large eddy simulation method with synthetic turbulence inflow boundary conditions. The influence of significant local building features across St Michael’s Park, such as a step-change in building height of approximately 20 m, was specifically studied. Various wind directions and pollutant emission source locations within the campus were tested to capture a wide range of scenarios. The numerical simulation was validated against EnFlo wind tunnel experiments conducted at the University of Surrey, ensuring the reliability of the results. The numerical data were processed to obtain time-averaged velocities, concentrations and second order turbulence statistics. The growth and decay of concentration fluctuations were investigated and compared with field measurements and DNS data in the literature. We are in particular focused on the influence of local building height change on the development of internal boundary layer, turbulent fluctuations and scalar fluctuations. These findings provide valuable insights into urban atmospheric dynamics and will be presented at the conference.
Wang, Changchang
116d67cc-799d-41e6-8169-32b401881ffc
Xie, Zheng-Tong
98ced75d-5617-4c2d-b20f-7038c54f4ff0
Wang, Changchang
116d67cc-799d-41e6-8169-32b401881ffc
Xie, Zheng-Tong
98ced75d-5617-4c2d-b20f-7038c54f4ff0

Wang, Changchang and Xie, Zheng-Tong (2025) Impact of local buildings on flow and dispersion over a heterogeneous neighbourhood urban area. 12th International Conference on Urban Climate, , Rotterdam, Netherlands. 07 - 11 Jul 2025. 1 pp . (doi:10.5194/icuc12-766).

Record type: Conference or Workshop Item (Paper)

Abstract

This study is a part of the joint ASSURE project involving the Universities of Reading, Bristol, Southampton, Surrey, and Imperial College, funded though the UK NERC Highlight Scheme. The atmospheric airflows and dispersions over a heterogeneous neighbourhood urban area covering the University of Bristol campus and the nearby residential areas were investigated using the large eddy simulation method with synthetic turbulence inflow boundary conditions. The influence of significant local building features across St Michael’s Park, such as a step-change in building height of approximately 20 m, was specifically studied. Various wind directions and pollutant emission source locations within the campus were tested to capture a wide range of scenarios. The numerical simulation was validated against EnFlo wind tunnel experiments conducted at the University of Surrey, ensuring the reliability of the results. The numerical data were processed to obtain time-averaged velocities, concentrations and second order turbulence statistics. The growth and decay of concentration fluctuations were investigated and compared with field measurements and DNS data in the literature. We are in particular focused on the influence of local building height change on the development of internal boundary layer, turbulent fluctuations and scalar fluctuations. These findings provide valuable insights into urban atmospheric dynamics and will be presented at the conference.

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Published date: 21 May 2025
Venue - Dates: 12th International Conference on Urban Climate, , Rotterdam, Netherlands, 2025-07-07 - 2025-07-11

Identifiers

Local EPrints ID: 511326
URI: http://eprints.soton.ac.uk/id/eprint/511326
DOI: doi:10.5194/icuc12-766
PURE UUID: a9c482c6-3c69-45c4-8fca-bdfb6ddded74
ORCID for Changchang Wang: ORCID iD orcid.org/0000-0002-4893-9231
ORCID for Zheng-Tong Xie: ORCID iD orcid.org/0000-0002-8119-7532

Catalogue record

Date deposited: 12 May 2026 16:33
Last modified: 13 May 2026 02:11

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Author: Changchang Wang ORCID iD
Author: Zheng-Tong Xie ORCID iD

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