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Wind-tunnel experiments on cross-ventilative cooling in a generic isolated building with one heated wall: impact of opening size

Wind-tunnel experiments on cross-ventilative cooling in a generic isolated building with one heated wall: impact of opening size
Wind-tunnel experiments on cross-ventilative cooling in a generic isolated building with one heated wall: impact of opening size
This paper presents wind-tunnel experiments of cross-ventilative cooling in a generic isolated building with an interior heated side wall. Two different sizes of openings are considered: large and small openings. Particle image velocimetry (PIV) is used to determine velocities in the vertical centerplane. Air temperatures in the vertical centerplane are measured using negative temperature coefficient (NTC) sensors. Surface temperatures on the heated wall are measured using an infrared camera. Surface heat fluxes are obtained using heat flux sensors. In both cases the indoor airflow is dominated by the jet through the openings, with higher velocities in the building with large openings. The air temperatures measured with small openings are up to 7.5 % larger than those with large openings. The surface heat fluxes are up to 20 % higher in the building with large openings. The interior convective heat transfer coefficients vary considerably across the heated wall for both opening sizes and can be very different (up to 5 times higher) from those obtained by existing internal convective heat transfer coefficient correlations. The measurement results give insight into the complexity of ventilative cooling and can be used to validate computational fluid dynamics (CFD) simulations of cross-ventilative cooling.
Heat flux, Indoor air temperature, Indoor airflow, PIV, Ventilative cooling, Wind-tunnel experiments
0360-1323
Kosutova, Katarina
214cacc0-1cb4-4a20-b3fa-db66e553cf6a
Vanderwel, Christina
fbc030f0-1822-4c3f-8e90-87f3cd8372bb
van Hooff, Twan
e41ddf67-9d28-44c7-8024-22a04c0e4390
Blocken, Bert
5635c919-83f0-4462-9582-e70978d2e07c
Hensen, Jan L.M.
15400077-a068-4140-bfa3-8b361aaf6fa1
Kosutova, Katarina
214cacc0-1cb4-4a20-b3fa-db66e553cf6a
Vanderwel, Christina
fbc030f0-1822-4c3f-8e90-87f3cd8372bb
van Hooff, Twan
e41ddf67-9d28-44c7-8024-22a04c0e4390
Blocken, Bert
5635c919-83f0-4462-9582-e70978d2e07c
Hensen, Jan L.M.
15400077-a068-4140-bfa3-8b361aaf6fa1

Kosutova, Katarina, Vanderwel, Christina, van Hooff, Twan, Blocken, Bert and Hensen, Jan L.M. (2024) Wind-tunnel experiments on cross-ventilative cooling in a generic isolated building with one heated wall: impact of opening size. Building and Environment, 259, [111628]. (doi:10.1016/j.buildenv.2024.111628).

Record type: Article

Abstract

This paper presents wind-tunnel experiments of cross-ventilative cooling in a generic isolated building with an interior heated side wall. Two different sizes of openings are considered: large and small openings. Particle image velocimetry (PIV) is used to determine velocities in the vertical centerplane. Air temperatures in the vertical centerplane are measured using negative temperature coefficient (NTC) sensors. Surface temperatures on the heated wall are measured using an infrared camera. Surface heat fluxes are obtained using heat flux sensors. In both cases the indoor airflow is dominated by the jet through the openings, with higher velocities in the building with large openings. The air temperatures measured with small openings are up to 7.5 % larger than those with large openings. The surface heat fluxes are up to 20 % higher in the building with large openings. The interior convective heat transfer coefficients vary considerably across the heated wall for both opening sizes and can be very different (up to 5 times higher) from those obtained by existing internal convective heat transfer coefficient correlations. The measurement results give insight into the complexity of ventilative cooling and can be used to validate computational fluid dynamics (CFD) simulations of cross-ventilative cooling.

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Accepted/In Press date: 9 May 2024
e-pub ahead of print date: 12 May 2024
Published date: 22 May 2024
Keywords: Heat flux, Indoor air temperature, Indoor airflow, PIV, Ventilative cooling, Wind-tunnel experiments

Identifiers

Local EPrints ID: 490980
URI: http://eprints.soton.ac.uk/id/eprint/490980
DOI: doi:10.1016/j.buildenv.2024.111628
ISSN: 0360-1323
PURE UUID: 7e94fc95-3963-4d2f-91bd-7206d3ecbb88
ORCID for Christina Vanderwel: ORCID iD orcid.org/0000-0002-5114-8377

Catalogue record

Date deposited: 10 Jun 2024 17:29
Last modified: 11 Jun 2024 01:47

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Contributors

Author: Katarina Kosutova
Author: Christina Vanderwel ORCID iD
Author: Twan van Hooff
Author: Bert Blocken
Author: Jan L.M. Hensen

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