Development and validation of a methodology to challenge the adaptive comfort model

Abstract Behavioural, physiological and psychological adaptive processes are presumed reasons for the discrepancies between predicted mean vote (PMV) and observed comfort votes during field studies. However, few is known about the individual portions of these processes to this effect. This paper describes the development of an experimental design which aims at identifying those portions and is meant for climate chambers with at least one facade connected to the exterior. The experimental design consists of distinctive settings with respect to variations in outside conditions and the number of control opportunities so that one or more of the three adaptive processes are blocked. The results of a first implementation of this experimental design presented show the ability to analyse the three processes individually with the data gathered by such procedures. As a result, the permission to interact with the built environment by means of using a fan or opening a window alone leads to an increased satisfaction with the thermal conditions. At the same time, the restriction of such behavioural reactions seems to be counterbalanced by an increased amount of physiological reactions such as an increased level of skin moisture and skin temperature. In conclusion, the developed experimental design looks promising in order to reveal the single effects leading to the phenomenon called adaptive comfort, while small adjustments are discussed for further improvements.

[1]  S Hori,et al.  Adaptation to heat. , 1995, The Japanese journal of physiology.

[2]  J. F. Nicol,et al.  Understanding the adaptive approach to thermal comfort , 1998 .

[3]  K. Steemers,et al.  Thermal comfort and psychological adaptation as a guide for designing urban spaces , 2003 .

[4]  P. Höppe Different aspects of assessing indoor and outdoor thermal comfort , 2002 .

[5]  J. Vischer The effects of the physical environment on job performance : Towards a theoretical model of workspace stress , 2007 .

[6]  H. Zhang,et al.  Human thermal sensation and comfort in transient and non-uniform thermal environments , 2003 .

[7]  P. O. Fanger,et al.  Thermal comfort: analysis and applications in environmental engineering, , 1972 .

[8]  Sabine Brasche,et al.  PROKLIMA - History, aim and study design , 1999 .

[9]  L. Berglund,et al.  A standard predictive index of human response to the thermal environment , 1986 .

[10]  Gail Brager,et al.  Expectations of indoor climate control , 1996 .

[11]  K B Pandolf,et al.  Time Course of Heat Acclimation and its Decay , 1998, International journal of sports medicine.

[12]  A Auliciems,et al.  Towards a psycho-physiological model of thermal perception , 1981, International journal of biometeorology.

[13]  Bjarne W. Olesen,et al.  People's clothing behaviour according to external weather and indoor environment , 2007 .

[14]  Ken Parsons,et al.  Human Thermal Environments: The Effects of Hot, Moderate, and Cold Environments on Human Health, Comfort and Performance , 1999 .

[15]  B. Saltin,et al.  Human circulatory and thermoregulatory adaptations with heat acclimation and exercise in a hot, dry environment. , 1993, The Journal of physiology.

[16]  R. Yerkes,et al.  The relation of strength of stimulus to rapidity of habit‐formation , 1908 .

[17]  Gail Brager,et al.  Operable windows, personal control and occupant comfort. , 2004 .

[18]  M. Bradley,et al.  Looking at pictures: affective, facial, visceral, and behavioral reactions. , 1993, Psychophysiology.

[19]  Jörg Schumacher,et al.  Bevölkerungsrepräsentative Normierung der Skala zur Allgemeinen Selbstwirksamkeitserwartung , 2006 .

[20]  M. Shukuya,et al.  Comparison of theoretical and statistical models of air-conditioning-unit usage behaviour in a residential setting under Japanese climatic conditions , 2009 .

[21]  Darren Robinson,et al.  Interactions with window openings by office occupants , 2009 .

[22]  Michael A. Humphreys,et al.  ADAPTIVE THERMAL COMFORT AND SUSTAINABLE THERMAL STANDARDS FOR BUILDINGS , 2002 .

[23]  Kevin J. Lomas,et al.  First principles modeling of thermal sensation responses in steady-state and transient conditions , 2003 .

[24]  Gail Brager,et al.  Developing an adaptive model of thermal comfort and preference , 1998 .