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DAYLIGHT LUMINAIRE BUILDINGS: FOCUS ON DAYLIGHT HARVESTING

student Alexandra Maier, student Ovidiu Micsa

First published: 2013-06-20https://doi.org/10.5593/sgem2013/bf6/s27.012View metrics

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Publication details

Title
DAYLIGHT LUMINAIRE BUILDINGS: FOCUS ON DAYLIGHT HARVESTING
Authors
student Alexandra Maier, student Ovidiu Micsa
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 13th SGEM GeoConference NANO, BIO AND GREEN TECHNOLOGIES FOR A SUSTAINABLE FUTURE
Publisher
Stef92 Technology
Year
2013
Pages
609 - 616 pp
ISSN
1314-2704
ISBN
Not available yet
Language
en
Publication type
Conference Paper
References32
  1. J.A. Veitch, Principles of Healthy Lighting: Highlights of CIE TC 6-11, National Research Council Canada, 2002 2. A. Haans, & K. C. M. Olijve, Sunlight versus Electrical Lighting: A Naturalness Bias in People's Appraisal of Light (2012) Eindhoven University of Technology, Eindhoven, the Netherlands

  2. Veitch, J. A., Hine, D. W., & Gifford, R. (1993). End users' knowledge, preferences, and beliefs for lighting. Journal of Interior Design, 19(2), 15-26. Section Green Design and Sustainable Architecture

  3. Heerwagen, J.H. and Orians, G.H. Humans Habitats and Aesthetics. In Kellert, S.R. and Wilson, e.O. (eds.) The Biophilia Hypothesis. Washington DC: Island Press, 1993;

  4. Araji, M.T., Boubekri, M. Window sizing procedures based on vertical illuminance and degree of discomfort glare in buildings interiors, Architectural Science Review 2008; 51(3): 252-262;

  5. CIE S 003/E-1996: Spatial distribution of daylight. CIE Standard: Overcast sky and clear sky, 1996;

  6. Society of Building Science Educators – SBSE;

  7. NA 058-00 -06 AA Innenraumbeleuchtung mit Tageslicht, http://www.fnl.din.de, accessed on 28 april 2013;

  8. International Energy Agency, Key World Energy Statistics, IEA, 2009;

  9. European Commission, Directive 2002/91/EC of 16 December 2002 on the energy performance of buildings, European Union, 2002;

  10. Enkvist, P.A., Nauclér, T., Rosander J. A cost curve for greenhouse gas reduction: a global study of size and cost of measures to reduce greenhouse gas emissions yields important insights for businesses and policy makers, McKinsey Quarterly: the online journal of McKinsey & Co 1, 2007;

  11. Traberg-Borup, S., Grau, K., Johnsen,K. Effektiv belysning i kontor-og erhvervbyggeri, En undersøgelse in ni kontorbygninger, Report SBI 2005:06. Statens Byggeforskningsinstitut, Hørsholm, Denmark, 2005;

  12. Bülow-Hübe, H. Daylight in glazed office buildings: a comparative study of day- light availability, luminance and illu minance distribution for an office room with three different glass areas, Report EBD-R —08/17, Lund University, Department of Architecture and Built Environment, Division of Energy and Building Design, Sweden, 2008;

  13. Lam, W.M.C., Sunlighting as Formgiver, USA: Van Nostrand Reinhold, 1986;

  14. Kristensen, P.E., Daylighting technologies in non-domestic buildings. International Journal of Solar Energy, 15(1-4): p. 55-67, 1994;

  15. J. Mardaljevic, L. Heschong, E. Lee, Daylight metrics and energy savings, Lighting Research and Technology, p. 261–283, 2009;

  16. http://www.withoutspaceandlight.com, The activist British campaign requesting more space and light in new building legislation, accessed 24.04.2013. GeoConference on Nano, Bio and Green – Technologies for a Sustainable Future

  17. J.A. Veitch, Principles of Healthy Lighting: Highlights of CIE TC 6-11, National Research Council Canada, 2002 2. A. Haans, & K. C. M. Olijve, Sunlight versus Electrical Lighting: A Naturalness Bias in People's Appraisal of Light (2012) Eindhoven University of Technology, Eindhoven, the Netherlands

  18. Veitch, J. A., Hine, D. W., & Gifford, R. (1993). End users' knowledge, preferences, and beliefs for lighting. Journal of Interior Design, 19(2), 15-26. Section Green Design and Sustainable Architecture

  19. Heerwagen, J.H. and Orians, G.H. Humans Habitats and Aesthetics. In Kellert, S.R. and Wilson, e.O. (eds.) The Biophilia Hypothesis. Washington DC: Island Press, 1993;

  20. Araji, M.T., Boubekri, M. Window sizing procedures based on vertical illuminance and degree of discomfort glare in buildings interiors, Architectural Science Review 2008; 51(3): 252-262;

  21. CIE S 003/E-1996: Spatial distribution of daylight. CIE Standard: Overcast sky and clear sky, 1996;

  22. Society of Building Science Educators – SBSE;

  23. NA 058-00 -06 AA Innenraumbeleuchtung mit Tageslicht, http://www.fnl.din.de, accessed on 28 april 2013;

  24. International Energy Agency, Key World Energy Statistics, IEA, 2009;

  25. European Commission, Directive 2002/91/EC of 16 December 2002 on the energy performance of buildings, European Union, 2002;

  26. Enkvist, P.A., Nauclér, T., Rosander J. A cost curve for greenhouse gas reduction: a global study of size and cost of measures to reduce greenhouse gas emissions yields important insights for businesses and policy makers, McKinsey Quarterly: the online journal of McKinsey & Co 1, 2007;

  27. Traberg-Borup, S., Grau, K., Johnsen,K. Effektiv belysning i kontor-og erhvervbyggeri, En undersøgelse in ni kontorbygninger, Report SBI 2005:06. Statens Byggeforskningsinstitut, Hørsholm, Denmark, 2005;

  28. Bülow-Hübe, H. Daylight in glazed office buildings: a comparative study of day- light availability, luminance and illu minance distribution for an office room with three different glass areas, Report EBD-R —08/17, Lund University, Department of Architecture and Built Environment, Division of Energy and Building Design, Sweden, 2008;

  29. Lam, W.M.C., Sunlighting as Formgiver, USA: Van Nostrand Reinhold, 1986;

  30. Kristensen, P.E., Daylighting technologies in non-domestic buildings. International Journal of Solar Energy, 15(1-4): p. 55-67, 1994;

  31. J. Mardaljevic, L. Heschong, E. Lee, Daylight metrics and energy savings, Lighting Research and Technology, p. 261–283, 2009;

  32. http://www.withoutspaceandlight.com, The activist British campaign requesting more space and light in new building legislation, accessed 24.04.2013. GeoConference on Nano, Bio and Green – Technologies for a Sustainable Future

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