Outdoor performance of the black globe temperature sensor on a hot and humid tropical region

A crucial variable to evaluate thermal comfort is the mean radiant temperature (Tmrt). In this paper we evaluate the performance of the 150 mm black globe thermometer to provide reliable Tmrt values for outdoor settings in Singapore. Accurate Tmrt values are calculated by the method of integral radi...

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Main Authors: ACERO, Juan A., DISSEGNA, Angela, TAN, Yon Sun, TAN, Adrian, NORFORD, Leslie K.
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Language:English
Published: Institutional Knowledge at Singapore Management University 2023
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Online Access:https://ink.library.smu.edu.sg/soss_research/4059
https://ink.library.smu.edu.sg/context/soss_research/article/5317/viewcontent/OutdoorPerformance_GMT_av.pdf
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spelling sg-smu-ink.soss_research-53172024-10-10T05:10:17Z Outdoor performance of the black globe temperature sensor on a hot and humid tropical region ACERO, Juan A. DISSEGNA, Angela TAN, Yon Sun TAN, Adrian NORFORD, Leslie K. A crucial variable to evaluate thermal comfort is the mean radiant temperature (Tmrt). In this paper we evaluate the performance of the 150 mm black globe thermometer to provide reliable Tmrt values for outdoor settings in Singapore. Accurate Tmrt values are calculated by the method of integral radiation measurements. Based on these, the mean convection coefficient of the black globe has been re-calibrated. Results show an improvement in the estimation of Tmrt with the new coefficient in comparison with the default version suggested in ISO7726:1998. Increasing the averaging periods of the measured variables improved the performance of the derived mean convective coefficients to estimate Tmrt. During clear skies day and for 10-min averaged data, RMSE for Tmrt reduce to 3.9 °C (7.4 °C for ISO7726:1998 coefficient) with an overestimation on high incoming solar radiation periods and an underestimation during the morning and evening (low solar elevation). During overcast dry conditions an underestimation of Tmrt is also expected which is higher in the rain/wet periods. The mean convective coefficient presented in this work can provide improved estimations of Tmrt relevant for outdoor thermal comfort studies in hot and humid tropical climates like Singapore. 2023-07-01T07:00:00Z text application/pdf https://ink.library.smu.edu.sg/soss_research/4059 info:doi/10.1080/09593330.2021.1989057 https://ink.library.smu.edu.sg/context/soss_research/article/5317/viewcontent/OutdoorPerformance_GMT_av.pdf http://creativecommons.org/licenses/by-nc-nd/4.0/ Research Collection School of Social Sciences eng Institutional Knowledge at Singapore Management University Black globe thermometer mean radiant temperature Singapore calibratrion mean convection coefficient Environmental Sciences Urban Studies and Planning
institution Singapore Management University
building SMU Libraries
continent Asia
country Singapore
Singapore
content_provider SMU Libraries
collection InK@SMU
language English
topic Black globe thermometer
mean radiant temperature
Singapore
calibratrion
mean convection coefficient
Environmental Sciences
Urban Studies and Planning
spellingShingle Black globe thermometer
mean radiant temperature
Singapore
calibratrion
mean convection coefficient
Environmental Sciences
Urban Studies and Planning
ACERO, Juan A.
DISSEGNA, Angela
TAN, Yon Sun
TAN, Adrian
NORFORD, Leslie K.
Outdoor performance of the black globe temperature sensor on a hot and humid tropical region
description A crucial variable to evaluate thermal comfort is the mean radiant temperature (Tmrt). In this paper we evaluate the performance of the 150 mm black globe thermometer to provide reliable Tmrt values for outdoor settings in Singapore. Accurate Tmrt values are calculated by the method of integral radiation measurements. Based on these, the mean convection coefficient of the black globe has been re-calibrated. Results show an improvement in the estimation of Tmrt with the new coefficient in comparison with the default version suggested in ISO7726:1998. Increasing the averaging periods of the measured variables improved the performance of the derived mean convective coefficients to estimate Tmrt. During clear skies day and for 10-min averaged data, RMSE for Tmrt reduce to 3.9 °C (7.4 °C for ISO7726:1998 coefficient) with an overestimation on high incoming solar radiation periods and an underestimation during the morning and evening (low solar elevation). During overcast dry conditions an underestimation of Tmrt is also expected which is higher in the rain/wet periods. The mean convective coefficient presented in this work can provide improved estimations of Tmrt relevant for outdoor thermal comfort studies in hot and humid tropical climates like Singapore.
format text
author ACERO, Juan A.
DISSEGNA, Angela
TAN, Yon Sun
TAN, Adrian
NORFORD, Leslie K.
author_facet ACERO, Juan A.
DISSEGNA, Angela
TAN, Yon Sun
TAN, Adrian
NORFORD, Leslie K.
author_sort ACERO, Juan A.
title Outdoor performance of the black globe temperature sensor on a hot and humid tropical region
title_short Outdoor performance of the black globe temperature sensor on a hot and humid tropical region
title_full Outdoor performance of the black globe temperature sensor on a hot and humid tropical region
title_fullStr Outdoor performance of the black globe temperature sensor on a hot and humid tropical region
title_full_unstemmed Outdoor performance of the black globe temperature sensor on a hot and humid tropical region
title_sort outdoor performance of the black globe temperature sensor on a hot and humid tropical region
publisher Institutional Knowledge at Singapore Management University
publishDate 2023
url https://ink.library.smu.edu.sg/soss_research/4059
https://ink.library.smu.edu.sg/context/soss_research/article/5317/viewcontent/OutdoorPerformance_GMT_av.pdf
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