Effect of office design characteristics and anthropometrics on thermal comfort in Malaysian universities air-conditioned buildings.
Apart from indoor environmental and personal factors, contextual factors have significantly influenced several thermal comfort studies. In air-conditioned spaces, thermal comfort is conveniently attainable by adjusting the temperature settings, but indoor design elements might alter thermal percepti...
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| Online Access: | http://eprints.utm.my/107792/1/NoorSyazwaneeMdTaib2023_EffectofOfficeDesignCharacteristicsandAnthropometricsonThermal_compressed.pdf http://eprints.utm.my/107792/ http://dx.doi.org/10.1051/e3sconf/202339601004 |
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my.utm.1077922024-10-02T07:35:05Z http://eprints.utm.my/107792/ Effect of office design characteristics and anthropometrics on thermal comfort in Malaysian universities air-conditioned buildings. Md. Taib, Noor Syazwanee Zaki, Sheikh Ahmad Rijal, Hom Bahadur Abd. Razak, Azli Yakub, Fitri Mat Ali, Mohamed Sukri Othman, Nor'Azizi TJ Mechanical engineering and machinery Apart from indoor environmental and personal factors, contextual factors have significantly influenced several thermal comfort studies. In air-conditioned spaces, thermal comfort is conveniently attainable by adjusting the temperature settings, but indoor design elements might alter thermal perceptions and provide adaptive opportunities. This study examines the influence of office design characteristics and anthropometrics on thermal comfort parameters and perceptions. Nineteen university offices in Kuala Lumpur and Shah Alam, comprised of twelve shared and seven private spaces, were investigated, and 628 responses were collected from 42 participants with even gender distributions. The results showed that room occupancy and size were statistically significant with Griffiths' comfort temperature. Offices with five or more people had lower mean comfort temperature (24.1 °C) than private offices (25.0 °C). The mean comfort temperature in offices larger than 80 m2 was 23.7 °C with warmer thermal preference, while offices smaller than 40 m2 were approximately one-degree Celsius higher. Offices with no shading device, window blinds opened, and tiled floorings had mean comfort temperatures higher than 25.0 °C. The findings also indicated that offices with more than a 60% glazing ratio have a slightly higher mean comfort temperature at 24.9 °C. The thermal sensation during closed blinds was much cooler than opened ones. The anthropometry of the human body impacts how heat is regulated; thus, respondents with higher Body Mass Index (BMI) and above-average body surface area (higher than 1.7 m2) had significantly lower comfort temperatures and preferred more humid surroundings. Mean comfort temperature was statistically significant with BMI with a noticeable difference between underweight (25.1 °C), normal (24.5 °C), and obese (23.9 °C) BMIs. In this study, it is recommended that BMI be considered when positioning occupants in shared offices, and window blinds are an integral shading device for adjusting indoor thermal comfort levels. 2023-06-16 Conference or Workshop Item PeerReviewed application/pdf en http://eprints.utm.my/107792/1/NoorSyazwaneeMdTaib2023_EffectofOfficeDesignCharacteristicsandAnthropometricsonThermal_compressed.pdf Md. Taib, Noor Syazwanee and Zaki, Sheikh Ahmad and Rijal, Hom Bahadur and Abd. Razak, Azli and Yakub, Fitri and Mat Ali, Mohamed Sukri and Othman, Nor'Azizi (2023) Effect of office design characteristics and anthropometrics on thermal comfort in Malaysian universities air-conditioned buildings. In: 11th International Conference on Indoor Air Quality, Ventilation and Energy Conservation in Buildings, IAQVE C2023, 20 May 2023 - 23 May 2023, Tokyo, Japan. http://dx.doi.org/10.1051/e3sconf/202339601004 |
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TJ Mechanical engineering and machinery Md. Taib, Noor Syazwanee Zaki, Sheikh Ahmad Rijal, Hom Bahadur Abd. Razak, Azli Yakub, Fitri Mat Ali, Mohamed Sukri Othman, Nor'Azizi Effect of office design characteristics and anthropometrics on thermal comfort in Malaysian universities air-conditioned buildings. |
| description |
Apart from indoor environmental and personal factors, contextual factors have significantly influenced several thermal comfort studies. In air-conditioned spaces, thermal comfort is conveniently attainable by adjusting the temperature settings, but indoor design elements might alter thermal perceptions and provide adaptive opportunities. This study examines the influence of office design characteristics and anthropometrics on thermal comfort parameters and perceptions. Nineteen university offices in Kuala Lumpur and Shah Alam, comprised of twelve shared and seven private spaces, were investigated, and 628 responses were collected from 42 participants with even gender distributions. The results showed that room occupancy and size were statistically significant with Griffiths' comfort temperature. Offices with five or more people had lower mean comfort temperature (24.1 °C) than private offices (25.0 °C). The mean comfort temperature in offices larger than 80 m2 was 23.7 °C with warmer thermal preference, while offices smaller than 40 m2 were approximately one-degree Celsius higher. Offices with no shading device, window blinds opened, and tiled floorings had mean comfort temperatures higher than 25.0 °C. The findings also indicated that offices with more than a 60% glazing ratio have a slightly higher mean comfort temperature at 24.9 °C. The thermal sensation during closed blinds was much cooler than opened ones. The anthropometry of the human body impacts how heat is regulated; thus, respondents with higher Body Mass Index (BMI) and above-average body surface area (higher than 1.7 m2) had significantly lower comfort temperatures and preferred more humid surroundings. Mean comfort temperature was statistically significant with BMI with a noticeable difference between underweight (25.1 °C), normal (24.5 °C), and obese (23.9 °C) BMIs. In this study, it is recommended that BMI be considered when positioning occupants in shared offices, and window blinds are an integral shading device for adjusting indoor thermal comfort levels. |
| format |
Conference or Workshop Item |
| author |
Md. Taib, Noor Syazwanee Zaki, Sheikh Ahmad Rijal, Hom Bahadur Abd. Razak, Azli Yakub, Fitri Mat Ali, Mohamed Sukri Othman, Nor'Azizi |
| author_facet |
Md. Taib, Noor Syazwanee Zaki, Sheikh Ahmad Rijal, Hom Bahadur Abd. Razak, Azli Yakub, Fitri Mat Ali, Mohamed Sukri Othman, Nor'Azizi |
| author_sort |
Md. Taib, Noor Syazwanee |
| title |
Effect of office design characteristics and anthropometrics on thermal comfort in Malaysian universities air-conditioned buildings. |
| title_short |
Effect of office design characteristics and anthropometrics on thermal comfort in Malaysian universities air-conditioned buildings. |
| title_full |
Effect of office design characteristics and anthropometrics on thermal comfort in Malaysian universities air-conditioned buildings. |
| title_fullStr |
Effect of office design characteristics and anthropometrics on thermal comfort in Malaysian universities air-conditioned buildings. |
| title_full_unstemmed |
Effect of office design characteristics and anthropometrics on thermal comfort in Malaysian universities air-conditioned buildings. |
| title_sort |
effect of office design characteristics and anthropometrics on thermal comfort in malaysian universities air-conditioned buildings. |
| publishDate |
2023 |
| url |
http://eprints.utm.my/107792/1/NoorSyazwaneeMdTaib2023_EffectofOfficeDesignCharacteristicsandAnthropometricsonThermal_compressed.pdf http://eprints.utm.my/107792/ http://dx.doi.org/10.1051/e3sconf/202339601004 |
| _version_ |
1814043524010606592 |