Acoustic Brickwork: Computational Design and Analysis of Scattering Properties

Isak Worre Foged, Anke Pasold

Research output: Contribution to book/anthology/report/conference proceedingArticle in proceedingResearchpeer-review

Abstract

This research is focuses on developing and analysing brickwork bonds by a parametric design model combined with a simulation model for scattering performances. Scattering of sound enegy of surfaces is important to understand how sound energy is maintained and distributed in spaces. The results show that modular brickwork with little periodic changes have specific scattering at specific frequencies, rather than equal scattering performance. This suggest that scattering can be designed in response to patterns and, or, should be mixed if diffusion is intended to approach more general scattering performances across frequencies.
Original languageEnglish
Title of host publicationPLEA 2018: Smart and Healthy Within the Two-Degree Limit : Proceedings of the 34th International Conference on Passive and Low Energy Architecture
PublisherPassive Low Energy Architecture Association
Publication date2018
Pages1077-1078
ISBN (Electronic)978-962-8272-36-5
Publication statusPublished - 2018
EventPLEA 2018 - Passive Low Energy Architecture: Smart and Healthy within the 2-degree Limit - Hong Kong, Hong Kong
Duration: 10 Dec 201812 Dec 2018

Conference

ConferencePLEA 2018 - Passive Low Energy Architecture
CountryHong Kong
CityHong Kong
Period10/12/201812/12/2018

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acoustics
scattering
simulation
energy

Cite this

Foged, I. W., & Pasold, A. (2018). Acoustic Brickwork: Computational Design and Analysis of Scattering Properties . In PLEA 2018: Smart and Healthy Within the Two-Degree Limit: Proceedings of the 34th International Conference on Passive and Low Energy Architecture (pp. 1077-1078). Passive Low Energy Architecture Association.
Foged, Isak Worre ; Pasold, Anke. / Acoustic Brickwork : Computational Design and Analysis of Scattering Properties . PLEA 2018: Smart and Healthy Within the Two-Degree Limit: Proceedings of the 34th International Conference on Passive and Low Energy Architecture. Passive Low Energy Architecture Association, 2018. pp. 1077-1078
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Foged, IW & Pasold, A 2018, Acoustic Brickwork: Computational Design and Analysis of Scattering Properties . in PLEA 2018: Smart and Healthy Within the Two-Degree Limit: Proceedings of the 34th International Conference on Passive and Low Energy Architecture. Passive Low Energy Architecture Association, pp. 1077-1078, Hong Kong, Hong Kong, 10/12/2018.

Acoustic Brickwork : Computational Design and Analysis of Scattering Properties . / Foged, Isak Worre; Pasold, Anke.

PLEA 2018: Smart and Healthy Within the Two-Degree Limit: Proceedings of the 34th International Conference on Passive and Low Energy Architecture. Passive Low Energy Architecture Association, 2018. p. 1077-1078.

Research output: Contribution to book/anthology/report/conference proceedingArticle in proceedingResearchpeer-review

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AB - This research is focuses on developing and analysing brickwork bonds by a parametric design model combined with a simulation model for scattering performances. Scattering of sound enegy of surfaces is important to understand how sound energy is maintained and distributed in spaces. The results show that modular brickwork with little periodic changes have specific scattering at specific frequencies, rather than equal scattering performance. This suggest that scattering can be designed in response to patterns and, or, should be mixed if diffusion is intended to approach more general scattering performances across frequencies.

M3 - Article in proceeding

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EP - 1078

BT - PLEA 2018: Smart and Healthy Within the Two-Degree Limit

PB - Passive Low Energy Architecture Association

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Foged IW, Pasold A. Acoustic Brickwork: Computational Design and Analysis of Scattering Properties . In PLEA 2018: Smart and Healthy Within the Two-Degree Limit: Proceedings of the 34th International Conference on Passive and Low Energy Architecture. Passive Low Energy Architecture Association. 2018. p. 1077-1078