ARCOM

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Farnham, C, Zhang, L, Yuan, J, Emura, K, Alam, A M and Mizuno, T (2017) Measurement of the evaporative cooling effect: Oscillating misting fan. Building Research & Information, 45(07), 783-99.

Farnham, C, Zhang, L, Yuan, J, Emura, K, Alam, A M and Mizuno, T (2017) Measurement of the evaporative cooling effect: oscillating misting fan. Building Research & Information, 45(07), 783–99.

Kingma, B R M, Schweiker, M, Wagner, A and van Marken Lichtenbelt, W D (2017) Exploring internal body heat balance to understand thermal sensation. Building Research & Information, 45(07), 808-18.

Kingma, B, Schweiker, M, Wagner, A and van Marken Lichtenbelt, W D (2017) Exploring internal body heat balance to understand thermal sensation. Building Research & Information, 45(07), 808–18.

Type: Journal Article
Keywords: biology; homeostasis; indoor environmental quality; physiology; thermal comfort; thermal perception; thermal sensation; thermoregulatory behaviour;
ISBN/ISSN: 0961-3218
URL: https://doi.org/10.1080/09613218.2017.1299996
Abstract:
A biological perspective is used to understand thermal sensation. The main premise is that thermal sensation serves an organism for the regulation of body temperature. A biological concept related to this premise is the physiological thermoneutral zone (TNZ). Within the TNZ the body can adjust body tissue insulation to maintain thermal balance and a stable core temperature. The approach presented here is based on the assumption that humans express neutral thermal sensation near the centre of their TNZ. To test this hypothesis, dTNZ_op is defined as the distance between measured operative temperature and the centre of the TNZ, and dTNZ_sk as the distance between measured mean skin temperature and the centre of the TNZ. The TNZ centre is calculated with a biophysical model using measured data from a climate chamber study with 16 female subjects. Regression between observed thermal sensation votes (TSV) and dTNZ_x revealed that the intercept corresponds with a slightly higher-than-neutral TSV and a strong linear relationship between TSV and dTNZ_op and dTNZ_sk. This approach shows great potential to improve the understanding of human thermal sensation in the context of physiology.

Pallubinsky, H, Kingma, B R M, Schellen, L, Dautzenberg, B, van Baak, M A and van Marken Lichtenbelt, W D (2017) The effect of warmth acclimation on behaviour, thermophysiology and perception. Building Research & Information, 45(07), 800-7.

Rijal, H B, Humphreys, M A and Nicol, J F (2017) Towards an adaptive model for thermal comfort in Japanese offices. Building Research & Information, 45(07), 717-29.

Rijal, H B, Humphreys, M A and Nicol, J F (2017) Towards an adaptive model for thermal comfort in Japanese offices. Building Research & Information, 45(07), 717–29.

Schweiker, M and Wagner, A (2017) Influences on the predictive performance of thermal sensation indices. Building Research & Information, 45(07), 745-58.

Schweiker, M and Wagner, A (2017) Influences on the predictive performance of thermal sensation indices. Building Research & Information, 45(07), 745–58.

van Marken Lichtenbelt, W, Hanssen, M, Pallubinsky, H, Kingma, B and Schellen, L (2017) Healthy excursions outside the thermal comfort zone. Building Research & Information, 45(07), 819-27.

van Marken Lichtenbelt, W, Hanssen, M, Pallubinsky, H, Kingma, B and Schellen, L (2017) Healthy excursions outside the thermal comfort zone. Building Research & Information, 45(07), 819–27.

Vargas, G, Lawrence, R and Stevenson, F (2017) The role of lobbies: Short-term thermal transitions. Building Research & Information, 45(07), 759-82.

Vargas, G, Lawrence, R and Stevenson, F (2017) The role of lobbies: short-term thermal transitions. Building Research & Information, 45(07), 759–82.