Evaluación de los coeficientes de descarga de grandes ventanas que se pueden abrir utilizando muestras a escala real en ensayos en túneles de viento

L. Fernandes; M. Friedrich; D. Cóstola; E. Matsumoto; L. Labaki; F. Wellershoff

doi:10.4067/S0718-50732020000200203

Evaluación de los coeficientes de descarga de grandes ventanas que se pueden abrir utilizando muestras a escala real en ensayos en túneles de viento

Translated title of the contribution: Evaluation of discharge coefficients of large openable windows using full-scale samples in wind tunnel tests

L. Fernandes, M. Friedrich, D. Cóstola, E. Matsumoto, L. Labaki, F. Wellershoff

Mechanical And Aerospace Engineering

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

36 Downloads (Pure)

Abstract

Discharge coefficients (C_D) are key input data in the evaluation of energy performance of naturally ventilated buildings. Such buildings are characterized by large openings (windows, grills, vents) for which accurate experimental data are rarely available in the literature or from manufacturers. In order to contribute with an experimental method for assessment and with new C_D values from windows typically found in Brazil and Germany, this paper describes a set of experiments assessing the discharge coefficient of these windows for cross-ventilation. Experiments were carried out based on the standard BS EN 13141-1:2004 set-up in a wind-tunnel with full-scale models. The investigated sample also comprised windows whose C_D values were known for the validation of the method. Results for known windows are in line with previous work. Results of discharge coefficients for innovative windows (not yet available in the literature) were found. The work reduces assumptions in natural ventilation studies, contributing to the reliability of building performance assessment.

Translated title of the contribution	Evaluation of discharge coefficients of large openable windows using full-scale samples in wind tunnel tests
Original language	Spanish
Pages (from-to)	203-214
Number of pages	12
Journal	Revista Ingenieria de Construccion
Volume	35
Issue number	2
DOIs	https://doi.org/10.4067/S0718-50732020000200203
Publication status	Published - 31 Aug 2020

Keywords

discharge coefficient
energy performance
natural ventilation
wind-tunnel
windows

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10.4067/S0718-50732020000200203Licence: CC BY 4.0

Fernandes-etal-RIC-2020-Evaluation-of-discharge-coefficients-of-large-openable-windowsFinal published version, 8.37 MBLicence: CC BY 4.0

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title = "Evaluaci{\'o}n de los coeficientes de descarga de grandes ventanas que se pueden abrir utilizando muestras a escala real en ensayos en t{\'u}neles de viento",

abstract = "Discharge coefficients (CD) are key input data in the evaluation of energy performance of naturally ventilated buildings. Such buildings are characterized by large openings (windows, grills, vents) for which accurate experimental data are rarely available in the literature or from manufacturers. In order to contribute with an experimental method for assessment and with new CD values from windows typically found in Brazil and Germany, this paper describes a set of experiments assessing the discharge coefficient of these windows for cross-ventilation. Experiments were carried out based on the standard BS EN 13141-1:2004 set-up in a wind-tunnel with full-scale models. The investigated sample also comprised windows whose CD values were known for the validation of the method. Results for known windows are in line with previous work. Results of discharge coefficients for innovative windows (not yet available in the literature) were found. The work reduces assumptions in natural ventilation studies, contributing to the reliability of building performance assessment.",

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author = "L. Fernandes and M. Friedrich and D. C{\'o}stola and E. Matsumoto and L. Labaki and F. Wellershoff",

year = "2020",

month = aug,

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doi = "10.4067/S0718-50732020000200203",

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AU - Fernandes, L.

AU - Friedrich, M.

AU - Cóstola, D.

AU - Matsumoto, E.

AU - Labaki, L.

AU - Wellershoff, F.

PY - 2020/8/31

Y1 - 2020/8/31

N2 - Discharge coefficients (CD) are key input data in the evaluation of energy performance of naturally ventilated buildings. Such buildings are characterized by large openings (windows, grills, vents) for which accurate experimental data are rarely available in the literature or from manufacturers. In order to contribute with an experimental method for assessment and with new CD values from windows typically found in Brazil and Germany, this paper describes a set of experiments assessing the discharge coefficient of these windows for cross-ventilation. Experiments were carried out based on the standard BS EN 13141-1:2004 set-up in a wind-tunnel with full-scale models. The investigated sample also comprised windows whose CD values were known for the validation of the method. Results for known windows are in line with previous work. Results of discharge coefficients for innovative windows (not yet available in the literature) were found. The work reduces assumptions in natural ventilation studies, contributing to the reliability of building performance assessment.

AB - Discharge coefficients (CD) are key input data in the evaluation of energy performance of naturally ventilated buildings. Such buildings are characterized by large openings (windows, grills, vents) for which accurate experimental data are rarely available in the literature or from manufacturers. In order to contribute with an experimental method for assessment and with new CD values from windows typically found in Brazil and Germany, this paper describes a set of experiments assessing the discharge coefficient of these windows for cross-ventilation. Experiments were carried out based on the standard BS EN 13141-1:2004 set-up in a wind-tunnel with full-scale models. The investigated sample also comprised windows whose CD values were known for the validation of the method. Results for known windows are in line with previous work. Results of discharge coefficients for innovative windows (not yet available in the literature) were found. The work reduces assumptions in natural ventilation studies, contributing to the reliability of building performance assessment.

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Evaluación de los coeficientes de descarga de grandes ventanas que se pueden abrir utilizando muestras a escala real en ensayos en túneles de viento

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