Adaptive thermal comfort model for educational buildings in a hot-humid climate

In this work, we show a thermal comfort field study and adaptive thermal comfort model in educational buildings under tropical Aw climate, considering air conditioning systems (AC) and natural ventilation (NV). The thermal comfort field study and the adaptive thermal comfort model considers 496 coll...

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Published in	Building and environment Vol. 150; pp. 181 - 194
Main Authors	López-Pérez, L.A., Flores-Prieto, J.J., Ríos-Rojas, C.
Format	Journal Article
Language	English
Published	Oxford Elsevier Ltd 01.03.2019 Elsevier BV
Subjects	Adaptability Adaptive model Air conditioners Air conditioning Air temperature Buildings Climate Cold Comfort temperature Education Educative buildings Energy conservation Field study Hot-humid climate Humid climates Natural ventilation Relative humidity Temperature Temperature effects Temperature preferences Thermal comfort Ventilation Air conditioning Educative buildings Comfort temperature Thermal comfort Hot-humid climate Adaptive model Natural ventilation
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Abstract	In this work, we show a thermal comfort field study and adaptive thermal comfort model in educational buildings under tropical Aw climate, considering air conditioning systems (AC) and natural ventilation (NV). The thermal comfort field study and the adaptive thermal comfort model considers 496 collected datasets, in 27 buildings in Tuxtla Gutiérrez-México, in warm season. In AC mode, the 48.1% of occupants surveyed felt comfort, the 44.0% felt cold and the 7.9% felt warmth. In NV mode, the 59.7% felt comfort, the 11.0% felt cold and the 29.3% felt warmth. In AC mode, the neutral preferences, the temperature, the relative humidity and the air velocity were 24.7 ± 1.6 °C, 52.1 ± 5.2% and 0.14 ± 0.05 m/s, respectively; in NV mode were 26.9 ± 1.3 °C, 54.4 ± 5.6% and 0.13 ± 0.04 m/s. The effect of the comfort temperature on the air movement was noticed, the Va was directly proportional to Tcomf. In AC mode, the Tcomf increase up to 27.4 ± 1.9 °C with a Va of 0.17 ± 0.06 m/s, which can be supplied at 0.17 ± 0.03, for cold conditioned supply air. In NV mode, the Tcomf can rise up to 29.3 ± 2.6 °C with a Va of 0.14 ± 0.03 m/s, for fresh air. As seen in AC Mode under tropical Aw climate, the surveyed in educational building prefer higher comfort temperatures up to 1.0 °C in reference to current standards, and this temperature can rise as the air movement increase. Thus, the increase of comfort temperature allows save energy and increase the percentage of satisfied people at the same time, if the thermal adaptability of occupants is considered. •In AC and NV, an adaptive model of thermal comfort in educational buildings under tropical Aw climate was developed.•In AC and NV, respectively, the 48:60% of the surveyed felt comfort, 44:11% felt cold and 8: 29% felt warmth.•Comfort parameters were established, occupants preferred one degree Celsius higher than established in current standards.•The increase of comfort temperature allows save energy and increase the percentage of satisfied people at the same time.•In AC, the comfort temperature can change with Va, 27.4 ± 1.9 °C:0.17 ± 0.06 m/s; in NV 29.3 ± 2.6 °C:0.14 ± 0.03 m/s.
AbstractList	In this work, we show a thermal comfort field study and adaptive thermal comfort model in educational buildings under tropical Aw climate, considering air conditioning systems (AC) and natural ventilation (NV). The thermal comfort field study and the adaptive thermal comfort model considers 496 collected datasets, in 27 buildings in Tuxtla Gutiérrez-México, in warm season. In AC mode, the 48.1% of occupants surveyed felt comfort, the 44.0% felt cold and the 7.9% felt warmth. In NV mode, the 59.7% felt comfort, the 11.0% felt cold and the 29.3% felt warmth. In AC mode, the neutral preferences, the temperature, the relative humidity and the air velocity were 24.7 ± 1.6 °C, 52.1 ± 5.2% and 0.14 ± 0.05 m/s, respectively; in NV mode were 26.9 ± 1.3 °C, 54.4 ± 5.6% and 0.13 ± 0.04 m/s. The effect of the comfort temperature on the air movement was noticed, the Va was directly proportional to Tcomf. In AC mode, the Tcomf increase up to 27.4 ± 1.9 °C with a Va of 0.17 ± 0.06 m/s, which can be supplied at 0.17 ± 0.03, for cold conditioned supply air. In NV mode, the Tcomf can rise up to 29.3 ± 2.6 °C with a Va of 0.14 ± 0.03 m/s, for fresh air. As seen in AC Mode under tropical Aw climate, the surveyed in educational building prefer higher comfort temperatures up to 1.0 °C in reference to current standards, and this temperature can rise as the air movement increase. Thus, the increase of comfort temperature allows save energy and increase the percentage of satisfied people at the same time, if the thermal adaptability of occupants is considered. In this work, we show a thermal comfort field study and adaptive thermal comfort model in educational buildings under tropical Aw climate, considering air conditioning systems (AC) and natural ventilation (NV). The thermal comfort field study and the adaptive thermal comfort model considers 496 collected datasets, in 27 buildings in Tuxtla Gutiérrez-México, in warm season. In AC mode, the 48.1% of occupants surveyed felt comfort, the 44.0% felt cold and the 7.9% felt warmth. In NV mode, the 59.7% felt comfort, the 11.0% felt cold and the 29.3% felt warmth. In AC mode, the neutral preferences, the temperature, the relative humidity and the air velocity were 24.7 ± 1.6 °C, 52.1 ± 5.2% and 0.14 ± 0.05 m/s, respectively; in NV mode were 26.9 ± 1.3 °C, 54.4 ± 5.6% and 0.13 ± 0.04 m/s. The effect of the comfort temperature on the air movement was noticed, the Va was directly proportional to Tcomf. In AC mode, the Tcomf increase up to 27.4 ± 1.9 °C with a Va of 0.17 ± 0.06 m/s, which can be supplied at 0.17 ± 0.03, for cold conditioned supply air. In NV mode, the Tcomf can rise up to 29.3 ± 2.6 °C with a Va of 0.14 ± 0.03 m/s, for fresh air. As seen in AC Mode under tropical Aw climate, the surveyed in educational building prefer higher comfort temperatures up to 1.0 °C in reference to current standards, and this temperature can rise as the air movement increase. Thus, the increase of comfort temperature allows save energy and increase the percentage of satisfied people at the same time, if the thermal adaptability of occupants is considered. •In AC and NV, an adaptive model of thermal comfort in educational buildings under tropical Aw climate was developed.•In AC and NV, respectively, the 48:60% of the surveyed felt comfort, 44:11% felt cold and 8: 29% felt warmth.•Comfort parameters were established, occupants preferred one degree Celsius higher than established in current standards.•The increase of comfort temperature allows save energy and increase the percentage of satisfied people at the same time.•In AC, the comfort temperature can change with Va, 27.4 ± 1.9 °C:0.17 ± 0.06 m/s; in NV 29.3 ± 2.6 °C:0.14 ± 0.03 m/s.
Author	Ríos-Rojas, C. Flores-Prieto, J.J. López-Pérez, L.A.
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Keywords	Air conditioning Educative buildings Comfort temperature Thermal comfort Hot-humid climate Adaptive model Natural ventilation
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Snippet	In this work, we show a thermal comfort field study and adaptive thermal comfort model in educational buildings under tropical Aw climate, considering air...
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SubjectTerms	Adaptability Adaptive model Air conditioners Air conditioning Air temperature Buildings Climate Cold Comfort temperature Education Educative buildings Energy conservation Field study Hot-humid climate Humid climates Natural ventilation Relative humidity Temperature Temperature effects Temperature preferences Thermal comfort Ventilation
Title	Adaptive thermal comfort model for educational buildings in a hot-humid climate
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