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Adaptive Heating Balance Comfort Model

Luo, Maohui

Human thermal comfort is influenced by both external environmental attributors and personal factors. The environmental attributors include air temperature (TA), radiant temperature (TR) (Zhou et al. in Energy Build 188:98–110, 2019 [1]), air movement (VEL) (Zhu et al. in Build Environ 91:5–14, 2015 [2]), relative humidity (RH), and so forth, while the personal factors involve metabolic rate (MET) (Luo and Wang in Build Environ 131:44–52, 2018 [3]), clothing insulation (CLO), maybe age, gender, and adaptation (Ji et al. Build Environ 114:246–256, 2017 [4]). To date, many efforts have been paid to develop models quantifying how these attributors may affect building occupants’ thermal comfort.

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Adaptive Heating Balance Comfort Model

Luo, Maohui

Human thermal comfort is influenced by both external environmental attributors and personal factors. The environmental attributors include air temperature (TA), radiant temperature (TR) (Zhou et al. in Energy Build 188:98–110, 2019 [1]), air movement (VEL) (Zhu et al. in Build Environ 91:5–14, 2015 [2]), relative humidity (RH), and so forth, while the personal factors involve metabolic rate (MET) (Luo and Wang in Build Environ 131:44–52, 2018 [3]), clothing insulation (CLO), maybe age, gender, and adaptation (Ji et al. Build Environ 114:246–256, 2017 [4]). To date, many efforts have been paid to develop models quantifying how these attributors may affect building occupants’ thermal comfort.

Adaptive Heating Balance Comfort Model

Luo, Maohui

Human thermal comfort is influenced by both external environmental attributors and personal factors. The environmental attributors include air temperature (TA), radiant temperature (TR) (Zhou et al. in Energy Build 188:98–110, 2019 [1]), air movement (VEL) (Zhu et al. in Build Environ 91:5–14, 2015 [2]), relative humidity (RH), and so forth, while the personal factors involve metabolic rate (MET) (Luo and Wang in Build Environ 131:44–52, 2018 [3]), clothing insulation (CLO), maybe age, gender, and adaptation (Ji et al. Build Environ 114:246–256, 2017 [4]). To date, many efforts have been paid to develop models quantifying how these attributors may affect building occupants’ thermal comfort.

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Titel:

Adaptive Heating Balance Comfort Model

Weitere Titelangaben:

Springer Theses

Beteiligte:

Luo, Maohui (Autor:in)

Erschienen in:

The Dynamics and Mechanism of Human Thermal Adaptation in Building Environment ; Kapitel: 6 ; 131-144

Springer Theses

Erscheinungsdatum:

07.11.2019

Format / Umfang:

14 pages

ISBN:

978-981-15-1165-3 , 978-981-15-1164-6

ISSN:

2190-5061 , 2190-5053

DOI:

https://doi.org/10.1007/978-981-15-1165-3_6

Medientyp:

Aufsatz/Kapitel (Buch)

Format:

Elektronische Ressource

Sprache:

Englisch

Schlagwörter:

Engineering , Building Construction and Design , Monitoring/Environmental Analysis , Interior Architecture and Design , Data-driven Science, Modeling and Theory Building

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