Daylight Illuminance Data Measurement and Processing for a Physical Scale Model
Publication: Journal of Architectural Engineering
Volume 30, Issue 1
Abstract
Continual two-year measurements of daylight illuminance were performed in order to evaluate the daylighting of a model room. The key research idea was to study room orientation and its effect on daylight availability by using real measurements from a physical scale model. Firstly, differences between the illuminance in the north- and south-oriented rooms were compared. Secondly, a characteristic annual profile of the external horizontal illuminance data was determined. Finally, the median external diffuse illuminance data from measurements were compared with values based on the values recommended in the standard. The goal of the research was focused on the evaluation of a regional daylight climate model applicable for daylight evaluations. The results of the daylight illuminance measurements showed the importance of climatic daylight data for indoor daylighting in building design performance.
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Data Availability Statement
All data, models, and code generated or used during the study appear in the published article.
Acknowledgments
This study was supported by the CTU in Prague. The authors acknowledge the company AWAL’s assistance in the daylight measurements. The article was completed in collaboration with Project no. LO1408 “AdMaS UP––Advanced materials, structures and technologies,” supported by the Ministry of Education, Youth and Sports under National Sustainability Programme I.
References
Aghemo, C., and A. Pellegrino. 1997. “Indoor daylighting: Assessment of the performances of different window options.” In Proc., Clima 2000. Brussels, Belgium: AIVC Publications.
Al-Sallal, K. 2016. Low energy low carbon architecture: Recent advances & future directions. Boca Raton, FL: CRC Press.
Ander, G. D. 2003. Daylighting performance and design. Hoboken, NJ: Wiley.
Boubekri, M. 2014. Daylighting design: Planning strategies and best practice solutions. Basel, Switzerland: Birkhäuser.
CEN (European Committee for Standardization). 2018. Daylight in buildings. EN 17037. Brussels, Belgium: CEN.
Constanzo, V., G. Evola, and L. Marletta. 2017. “A review of daylighting strategies in schools: State of the art and expected future trends.” Buildings 7 (2): 41. https://doi.org/10.3390/buildings7020041.
ČSN. 2004. Obytné budovy (Residential buildings). [In Czech.] ČSN 734301-04. Prague, Czech Republic: The Czech Office for Standards, Metrology and Testing (ÚNMZ).
Data ČHMÚ. 2020. “Data ČHMÚ (the Czech Hydrometeorological Institute), Prague.” Accessed February 22, 2020. https://www.chmi.cz/.
Dilaura, D. L., K. W. Houser, R. G. Mistrick and G. R. Steffy. 2011. The lighting handbook: Reference and application. New York: Illuminating Engineering Society of North America.
Fela, R., S. S. Utami, R. A. Mangkuto, and D. J. Suroso. 2019. The effects of orientation, window size, and lighting control to climate-based daylight performance and lighting energy demand on buildings in tropical area. Rome: Building Simulation.
IES (Illuminating Engineering Society). 2013. Recommended practice for daylighting buildings. IES RP-5. IES. Inspection certificates: no. 9229-A58U-16 (for T-10A, 20015479), no. 9229-A58U-30 (for T10-A, 30017529 and 30017406), no. 9229-A58U-32 (for T-10WsA, 32011099). New York: Konica Minolta.
Jovanović, A., P. Pejić, S. Djorić-Veljković, J. Karamarković, and M. Djelić. 2014. “Importance of building orientation in determining daylighting quality in student dorm rooms: Physical and simulated daylighting parameters’ values compared to subjective survey results.” Energy Build. 77: 158–170. https://doi.org/10.1016/j.enbuild.2014.03.048.
Khidmat, R. P., H. Fukuda, Kustiani, B. Paramita, M. Qingsong, and A. Hariyadi. 2022. “Investigation into the daylight performance of expanded-metal shading through parametric design and multi-objective optimisation in Japan.” J. Build. Eng. 51: 104241. https://doi.org/10.1016/j.jobe.2022.104241.
Kittler, R., S. Hayman, N. Ruck, and J. Warren. 1992. “Daylight measurement data: Methods of evaluation and representation.” Light. Res. Technol. 24 (4): 173–187. https://doi.org/10.1177/096032719202400402.
Kittler, R., M. Kocifaj, and S. Darula. 2012. Daylight science and daylighting technology. New York: Springer.
Kittler, R., R. Perez, and S. Darula. 1997. “Sky classification respecting energy-efficient lighting, glare and control needs.” J. Illum. Eng. Soc. 26 (1): 57–68. https://doi.org/10.1080/00994480.1997.10748167.
Kittler, R., R. Perez, and S. Darula. 1998. A set of standard skies characterizing daylight conditions for computer and energy conscious design. US SK 92 052 Final Report. Bratislava, Slovakia: ICA SAS Bratislava.
Lewis, A. 2017. “The mathematisation of daylighting: A history of British architects’ use of the daylight factor.” J. Architect. 22 (7): 1155–1177. https://doi.org/10.1080/13602365.2017.1376342.
Li, D. H. W., and S. Lou. 2018. “Review of solar irradiance and daylight illuminance modeling and sky classification.” Renew. Energy 126: 445–453. https://doi.org/10.1016/j.renene.2018.03.063.
Mahdavi, A. H., N. Inangda, and S. P. Rao. 2015. “Impacts of orientation on daylighting in high-rise office buildings in Malaysia.” J. Des. Built Environ. 15 (2): 29–38.
Mangkuto, R. A., M. Rohmah, and A. D. Asri. 2016. “Design optimisation for window size, orientation, and wall reflectance with regard to various daylight metrics and lighting energy demand: A case study of buildings in the tropics.” Appl. Energy 164: 211–219. https://doi.org/10.1016/j.apenergy.2015.11.046.
Mardaljevic, J. 1999. “Daylight simulation: Validation, sky models and daylight coefficients.” Ph.D. thesis, Institute of Energy and Sustainable Development, De Montfort Univ.
Mardaljevic, J., and J. Christoffersen. 2013. “A proposal for a European standard for daylight in buildings.” In Proc., 12th European Lighting Conf. Krakow, Poland: Polski Komitet Oswietleniowy.
Measurement protocols. 2020. Protokol o měření 8018-RP-R0014-20 a 8018-RP-R0015-20 a 8018-RP-R0016-20. [In Czech.] Brno, Czech Republic: Czech Metrology Institute.
Nabil, A., and J. Mardaljevic. 2006. “Useful daylight illuminances: A replacement for daylight factors.” Energy Build. 38: 905–913. https://doi.org/10.1016/j.enbuild.2006.03.013.
Pelech, M. 2021. “Porovnání hodnocení denního osvětlení v ČSN EN 17037 s měřením na modelu pod reálnou oblohou (Comparative daylight evaluation according to ČSN EN 17037 with measurement on a model under real sky).” [In Czech.] Ph.D. thesis, Faculty of Civil Engineering, Czech Technical University in Prague.
Perez, R., R. Seals, and J. Michalsky. 1993. “All-weather model for sky luminance distribution—Preliminary configuration and validation.” Sol. Energy 50 (3): 235–245. https://doi.org/10.1016/0038-092X(93)90017-I.
Reinhart, C. 2020. Daylight handbook I. 2nd ed. Krakow, Poland: Building Technology Press.
Roztoky. 2020. Cadastral map, Roztoky. Prague, Czech Republic: ČÚZK.
Schittich, C. 2003. Solar architecture: Strategies, visions, concepts. Basel, Switzerland: Birkhäuser.
Soler, T., and R. J. Fury. 2000. “GPS alignment surveys and meridian convergence.” J. Surv. Eng. 126 (3): 69–82. https://doi.org/10.1061/(ASCE)0733-9453(2000)126:3(69).
Šprah, N., and M. Košir. 2020. “Daylight provision requirements according to EN 17037 as a restriction for sustainable urban planning of residential developments.” Sustainability 12 (1): 315. https://doi.org/10.3390/su12010315.
Theodorson, J. 2018. “North v. south: The impact of orientation in daylighting school classrooms.” In Proc., SOLAR 2008, American Solar Energy Society, 5116–5121. San Diego, CA: American Solar Energy Society.
Wilson, M., and P. Tregenza. 2011. Daylighting: Architecture and lighting design. London, UK: Routledge.
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© 2024 American Society of Civil Engineers.
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Received: Jun 28, 2022
Accepted: Oct 2, 2023
Published online: Jan 11, 2024
Published in print: Mar 1, 2024
Discussion open until: Jun 11, 2024
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