Saving energy with light? Experimental studies assessing the impact of colour temperature on thermal comfort

We tested whether the colour temperature of the illumination (realised through manipulating the ceiling light) impacted on thermal comfort, based on the hypothesis that a lower colour temperature is associated with feeling warmer and a higher colour temperature with feeling cooler. If confirmed, then light might be a tool for energy-saving through allowing ambient air temperatures to vary over a wider range and hence reducing the need for space heating and cooling. Testing took place in a climate chamber. In Study 1, comfort ratings were collected using thermal comfort surveys (N = 32). In Study 2, an observational design was used, where changes in clothing level, interpreted as thermal discomfort responses, were observed (N = 32). We compared comfort ratings and changes in clothing level under light with a colour temperature of 2700 K vs. 6500 K. Results partly confirmed the hypotheses: both self-report and observation indicated higher comfort under the low colour temperature. Further research will need to replicate findings in a real-world setting to see if light might indeed be a tool to modulate thermal comfort, and hence reduce usage of heating and cooling.

[1]  Matteo Valsecchi,et al.  Variations in daylight as a contextual cue for estimating season, time of day, and weather conditions. , 2014, Journal of vision.

[2]  Ergonomics of the thermal environment — Instruments for measuring physical quantities , 1998 .

[3]  Ad Aertsen,et al.  Regular Patterns in Cerebellar Purkinje Cell Simple Spike Trains , 2007, PloS one.

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

[5]  L. Ou,et al.  A study of colour emotion and colour preference. Part I: Colour emotions for single colours , 2004 .

[6]  K. G. Stansfield,et al.  A Review of: “Hawthorne Revisited : Management and the Worker, its Critics, and Developments in Human Relations in Industry”. By H, A. LANDSBERGER. Ithaca, N.Y. : Cornell University. 1958. , 1960 .

[7]  P. Fanger,et al.  Can colour and noise influence man's thermal comfort? , 1977, Ergonomics.

[8]  Henry A. Landsberger,et al.  Hawthorne revisited : management and the worker, its critics, and developments in human relations in industry , 1959 .

[9]  S. Horvath,et al.  Influences of age and gender on human thermoregulatory responses to cold exposures. , 1985, Journal of applied physiology.

[10]  Claudia Marggraf-Micheel,et al.  The influence of coloured light in the aircraft cabin on passenger thermal comfort , 2014 .

[11]  Victor Candas,et al.  Thermal comfort: multisensory interactions? , 2005, Journal of physiological anthropology and applied human science.

[12]  Stefano Paolo Corgnati,et al.  Smart meters and energy savings in Italy: Determining the effectiveness of persuasive communication in dwellings , 2014 .

[13]  D. Vuuren,et al.  Modeling global residential sector energy demand for heating and air conditioning in the context of climate change , 2009 .

[14]  Josef Flammer,et al.  Thermal discomfort with cold extremities in relation to age, gender, and body mass index in a random sample of a Swiss urban population , 2010, Population health metrics.

[15]  Roderic B. Mast,et al.  Global Conservation Priorities for Marine Turtles , 2011, PloS one.

[16]  Paul D. Gamlin,et al.  Measuring and using light in the melanopsin age , 2014, Trends in Neurosciences.

[17]  I. Diaz‐Rainey,et al.  Investment inefficiency and the adoption of eco-innovations: The case of household energy efficiency technologies , 2015 .

[18]  A. H. Taylor,et al.  The Distribution of Energy in the Visible Spectrum of Daylight , 1941 .

[19]  A. Robertson Computation of Correlated Color Temperature and Distribution Temperature , 1968 .

[20]  Markus A. Maier,et al.  Color and psychological functioning: the effect of red on performance attainment. , 2007, Journal of experimental psychology. General.

[21]  Gunther Wyszecki,et al.  Color Science: Concepts and Methods, Quantitative Data and Formulae, 2nd Edition , 2000 .

[22]  F. C. Houghten,et al.  Sensation of Warmth as Affected by the Color of the Environment. , 1940 .

[23]  Edward Arens,et al.  Indoor Environmental Quality ( IEQ ) Title A model of human physiology and comfort for assessing complex thermal environments , 2001 .

[24]  Thomas C. Greene,et al.  Additional considerations concerning the effects of 'warm' and 'cool' wall colours on energy conservation. , 1980, Ergonomics.

[25]  J. F. Nicol,et al.  Thermal comfort as part of a self-regulating system , 1973 .

[26]  A. Wirz-Justice,et al.  High sensitivity of human melatonin, alertness, thermoregulation, and heart rate to short wavelength light. , 2005, The Journal of clinical endocrinology and metabolism.

[27]  J. Schanda,et al.  The Concept of Correlated Colour Temperature Revisited , 2001 .

[28]  Daisuke Iwai,et al.  Combining colour and temperature: A blue object is more likely to be judged as warm than a red object , 2014, Scientific Reports.

[29]  P. Berry Effect of colored illumination upon perceived temperature , 1961 .

[30]  George M. Chryssochoidis,et al.  Why do homeowners renovate energy efficiently?:Contrasting perspectives and implications for policy , 2015 .

[31]  W. D. McArdle,et al.  Thermal adjustment to cold-water exposure in resting men and women. , 1984, Journal of applied physiology: respiratory, environmental and exercise physiology.

[32]  W. D. van Marken Lichtenbelt,et al.  The influence of local effects on thermal sensation under non-uniform environmental conditions — Gender differences in thermophysiology, thermal comfort and productivity during convective and radiant cooling , 2012, Physiology & Behavior.

[33]  Ji Hye Oh,et al.  Healthy, natural, efficient and tunable lighting: four-package white LEDs for optimizing the circadian effect, color quality and vision performance , 2014 .

[34]  W D Wright,et al.  Color Science, Concepts and Methods. Quantitative Data and Formulas , 1967 .

[35]  G. Eknoyan,et al.  Adolphe Quetelet (1796-1874)--the average man and indices of obesity. , 2007, Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association.

[36]  S. Karjalainen Gender differences in thermal comfort and use of thermostats in everyday thermal environments , 2007 .

[37]  Mariana G. Figueiro,et al.  An Overview of the Effects of Light on Human Circadian Rhythms: Implications for New Light Sources and Lighting Systems Design , 2013 .

[38]  L. Şahin,et al.  Alerting effects of short-wavelength (blue) and long-wavelength (red) lights in the afternoon , 2013, Physiology & Behavior.

[39]  V. Olgyay Design With Climate: Bioclimatic Approach to Architectural Regionalism , 1963 .

[40]  Javier Hernández-Andrés,et al.  Short-term variability of overcast brightness. , 2005, Applied optics.

[41]  Javier Hernández-Andrés,et al.  Colors of the daytime overcast sky. , 2005, Applied optics.

[42]  M. Sato,et al.  The effect of color temperature of lighting sources on mental activity level. , 1992, The Annals of physiological anthropology = Seiri Jinruigaku Kenkyukai kaishi.

[43]  Angela M. Brown,et al.  Universality of color names , 2006, Proceedings of the National Academy of Sciences.

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

[45]  C A Bennett,et al.  What's So Hot about Red? , 1972, Human factors.

[46]  Markus A. Maier,et al.  Mediation of the Negative Effect of Red on Intellectual Performance , 2008, Personality & social psychology bulletin.

[47]  Peter Blattner,et al.  Non-Visual Effects of Light on Melatonin, Alertness and Cognitive Performance: Can Blue-Enriched Light Keep Us Alert? , 2011, PloS one.

[48]  C. Vlek,et al.  A review of intervention studies aimed at household energy conservation , 2005 .

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

[50]  J. Gage Colour and culture: Practice and meaning from antiquity to abstraction , 1993 .

[51]  H. B. English,et al.  The Apparent Warmth of Colors , 1926 .

[52]  Kerry Hourigan,et al.  Wake transition of a rolling sphere , 2011, J. Vis..

[53]  Gesche M. Huebner,et al.  Feeling the light? Impact of illumination on observed thermal comfort , 2014 .

[54]  W D van Marken Lichtenbelt,et al.  Differences between young adults and elderly in thermal comfort, productivity, and thermal physiology in response to a moderate temperature drift and a steady-state condition. , 2010, Indoor air.

[55]  Andreas Kamilaris,et al.  A case study on the individual energy use of personal computers in an office setting and assessment of various feedback types toward energy savings , 2015 .

[56]  Effects of Room Hue on Ratings of Self, Other, and Environment , 1978 .

[57]  J. Hardin,et al.  Generalized Estimating Equations , 2002 .

[58]  G. Vandewalle,et al.  Brain Responses to Violet, Blue, and Green Monochromatic Light Exposures in Humans: Prominent Role of Blue Light and the Brainstem , 2007, PloS one.

[59]  Gail Brager,et al.  A Comparison of Methods for Assessing Thermal Sensation and Acceptability in the Field , 1993 .

[60]  A. Carrico,et al.  Motivating energy conservation in the workplace: An evaluation of the use of group-level feedback and peer education , 2011 .

[61]  Ulrike Griebel,et al.  Brightness discrimination ability in the West Indian manatee (Trichechus manatus). , 1997, The Journal of experimental biology.

[62]  A. Wierzbicka The meaning of color terms: semantics, culture, and cognition , 1990 .

[63]  B. Sovacool What Are We Doing Here? Analyzing Fifteen Years of Energy Scholarship and Proposing a Social Science Research Agenda , 2014 .

[64]  M. Barris Theory of Colours. , 2002 .

[65]  S. Karjalainen,et al.  Thermal comfort and gender: a literature review. , 2012, Indoor air.

[66]  Kristian Fabbri,et al.  Assessment of the Influence of the Thermal Environment Using Subjective Judgement Scales , 2015 .

[67]  R. Dear,et al.  Thermal adaptation in the built environment: a literature review , 1998 .