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The Effect of Vertical Skylights Designed in Buildings on Daylight Illumination

Yıl 2023, Cilt: 11 Sayı: 2, 561 - 571, 23.06.2023
https://doi.org/10.29109/gujsc.1265787

Öz

The fact that lighting plays an important role in the energy consumed by buildings, which have a large share in the total energy consumption in the world, requires more work to be done on daylight, which reduces the need for artificial lighting, saves energy in buildings and increases indoor comfort as well. Whether the current energy resources will exist in the future and the extent of the damage to the ecosystem as a result of the deterioration of the natural balance are discussed and discussed from different perspectives. At this point, with the thought of efficient use of energy, studies are carried out to reduce energy consumption and ensure sustainability in the field of lighting. In the building sector, which has a significant share in energy consumption, energy efficient design and sustainable architecture, which aims to use renewable energy sources and reduce energy consumption, are supported by planning and design criteria.
In this study, the efficiency of skylights, which is one of the lighting methods with daylight, was investigated in accordance with the criteria specified in the relevant zoning legislation and the daylight standard in buildings. The effect of skylights on visual comfort and daylight performance in residential interiors that do not receive direct sunlight was analyzed with 3 different scenarios on spaces in different directions and floors with the help of the Design Builder simulation program. As a result of the analysis, it was concluded that the size of the spaces illuminated by the skylight, the length of the facade where the skylight is located, the floor where the space is located and its direction significantly affect the level of illumination. In line with the findings obtained in the study, it has been observed that the minimum skylight values given in the Planned Areas Zoning Regulation in force today do not provide sufficient daylight illumination, especially in the spaces on the ground floor. For this reason, solutions have been proposed to reach the level of visual comfort in spaces.

Kaynakça

  • [1] Gültekin, A.B., Bulut, B., 2015. Yeşil Bina Sertifika Sistemleri: Türkiye İçin Bir Sistem Önerisi. 2nd International Sustainable Buildings Symposium (ISBS). 28-30 May 2015, Ankara.
  • [2] Eurima, European insulation Manufacturers Association, Retrieved from: https://www.eurima.org/, Last Access: 02.02.2023.
  • [3] Gürsoy, S., (2019). Gün Işığının Etkin Kullanımı Amacıyla Anidolik Tavan Sistemi Tasarımına Yönelik Bir Çalışma. Yüksek Lisans Tezi, İstanbul Teknik Üniversitesi, Fen Bilimleri Enstitüsü, İstanbul.
  • [4] Richard, B. (2009). The Case for Daylighting in Architecture. International Journal of Architectural Research Archnet-IJAR 3(2). DOI:10.26687/archnet-ijar.v3i2.268.
  • [5] Andersen, M. (2015). Unweaving the human response in daylighting design. Building and Environment 91(3). DOI:10.1016/j.buildenv.2015.03.014
  • [6] Arpacıoğlu Ü., Çalışkan C. İ., Şahin B., Ödevci N., (2020) Fictional Design Support Model for Increasing Daylight Efficiency in Architectural Planning, Journal of Design Theory, 16 (29), 53-78.
  • [7] Arpacıoğlu Ü., (2012), An Important Factor for Spatial Quality and Comfort: Günışığı, Architecture Magazine, 49(368) 48-52.
  • [8] Uyan, E., Küçükdoğu, M.Ş., & Aydemir, I., (2018). Aydınlatma Kalitesini Belirleyen Psikolojik Parametrelerin Çalışma Alanı Örneğinde İncelenmesi, İstanbul Ticaret Üniversitesi Fen Bilimleri Dergisi, 17(33), 51-60.
  • [9] Morghen, I., Turola, M. C., Forini, E., Di Pasquale, P., Zanatta, P. & Matarazzo, T. (2009). ''III-Lighting Syndrome: Prevalence in Shift Work Personnel in the 86 Anaesthesiology and Intensive Care Department of Three Italian Hospitals''. Journal of Occupational Medicine and Toxicology, 4(6).
  • [10] Şener Yılmaz F., (2016) The Effect of Solar Control Design on Visual Comfort and Daylight Performance: Office Buildings, Online Journal of Art Design, 4(4), 47-62.
  • [11] Wirz Justic, A., Skene, D. J., & Münch, M., (2021). The relevance of daylight for humans. Journal of Biochemical Pharmacology, 191.
  • [12] Kutlu R., (2019) Sunlight as a Design Element, The Turkish Online Journal of Design, Art and Communication – TOJDAC, 9 (2), 226-233.
  • [13] Köknel Yener, A., (2007). Binalarda Günışığından Yararlanma Yöntemleri. VIII. Ulusal Tesisat Mühendisliği Kongresinde sunulan Sempozyum Bildirisi, 231-241. Erişim adresi: https://www1.mmo.org.tr/resimler/dosya_ekler/b4b098eec636a3f_ek.pdf
  • [14] Ünver, F.R., Çelik K., (2019), Sustainable Lighting Design Approach in Educational Buildings, Çukurova University Journal of Engineering and Architecture Faculty, 34(3), pp. 49-63
  • [15] Acosta I., Navarro J., Sendra J. J., (2013), Towards an analysis of the performance of lightwell skylights under overcast sky conditions, Energy and Buildings, 64, 10-16.
  • [16] Acosta I., Navarro J., Sendra J. J., (2015), Towards an analysis of the performance of monitor skylights under overcast sky conditions, Energy and Buildings, 88, 248-261.
  • [17] Fang Y., Cho S., (2018), Sensitivity Analysis of skylight and clerestory design on energy and daylight performance of a retail building Western Kentucky university, Bowling
  • [18] Erlendsson O., (2014), Daylight Optimization-A Parametric Study of Atrium Design: Early Stage Design Guidelines of Atria for Optimization of Daylight Autonomy.
  • [19] Cochran E., Pei Z., Marion F., Kolosky A., Loftness V., Aziz A., (2014), Integrated Dynamic Skylight Solutions to Reduce Energy Consumption and Improve Indoor Lighting Quality in US Buildings Erica. ACEEE Summer Study on Energy Efficiency in Buildings,5–50.
  • [20] Mccluney R., (1984), SKYMOD Annual Energy Performance Simulation Model for Skylights, Energy and Buildings, 6, 353 – 360.
  • [21] Xuan Q., Li G., Zhao B., Jiang B., Sun D., Zhang X., Tang J., Zhuang Y., Liu J., Li L., (2022), Evaluation of the smart daylighting control performance of the concentrating photovoltaic/daylighting system as the skylight in the building, Solar Energy, 238, 17-29.
  • [22] Dolnikova E., Katunsky D., Darula S., (2020) Assessment of overcast sky daylight conditions in the premises of engineering operations considering two types of skylights, Journal of Building and Environment, 180.
  • [23] Çevre, Şehirciliik ve İklim Değişikliği Bakanlığı, 2021. Planlı Alanlar İmar Yönetmeliği. Retrieved from https://www.mevzuat.gov.tr/File/GeneratePdf?mevzuatNo=23722&mevzuatTur=KurumVeKurulusYonetmeligi&mevzuatTertip=5 Last Access: 10.03.2023.
  • [24] TS EN 17037 Binalarda Günışığı Standardı
  • [25] Stevens, R. G., & Rea M. S. (2001). Light in the Built Environment: Potential role of Circadian Disruption in Endocrine Disruption and Breast Cancer. Cancer Causes & Control 12, 279–287.
  • [26] Gehrt D., Hafner M., Grollov S. T., Eliasen M., Christoffersen J., (2019), Healthy Homes Barometer 2019 Growing up in (un)healthy buildings.
  • [27] Katunsky, E. Dolnikova, B. Dolnik, (2018), Daytime lighting assessment in textile factory using connected windows in Slovakia; Case Study, Sustainabillity 10.
  • [28] Krüger E.L., Fonseca S.D., (2011), Evaluating Daylighting Potential And Energy Efficiency İn A Classroom Building, J. Renew. Sustain. Energy 3, 63112 (2011)
  • [29] Sümengen Ö., Köknel Yener A., (2015) Investigation of Daylight Variables in Determining Lighting Energy Performance in Buildings, Erciyes University Journal of Science Institute, 31 (2), 135-148.
  • [30] Altensis, (2022), Retrieved from https://www.altensis.com/hizmetler/designbuildr, Last Access: 13.05.2022.
  • [31] CIE International Commission on Illumination, Retrieved from https://cie.co.at/publications/international-standards Last access: 10.03.2023.
Yıl 2023, Cilt: 11 Sayı: 2, 561 - 571, 23.06.2023
https://doi.org/10.29109/gujsc.1265787

Öz

Kaynakça

  • [1] Gültekin, A.B., Bulut, B., 2015. Yeşil Bina Sertifika Sistemleri: Türkiye İçin Bir Sistem Önerisi. 2nd International Sustainable Buildings Symposium (ISBS). 28-30 May 2015, Ankara.
  • [2] Eurima, European insulation Manufacturers Association, Retrieved from: https://www.eurima.org/, Last Access: 02.02.2023.
  • [3] Gürsoy, S., (2019). Gün Işığının Etkin Kullanımı Amacıyla Anidolik Tavan Sistemi Tasarımına Yönelik Bir Çalışma. Yüksek Lisans Tezi, İstanbul Teknik Üniversitesi, Fen Bilimleri Enstitüsü, İstanbul.
  • [4] Richard, B. (2009). The Case for Daylighting in Architecture. International Journal of Architectural Research Archnet-IJAR 3(2). DOI:10.26687/archnet-ijar.v3i2.268.
  • [5] Andersen, M. (2015). Unweaving the human response in daylighting design. Building and Environment 91(3). DOI:10.1016/j.buildenv.2015.03.014
  • [6] Arpacıoğlu Ü., Çalışkan C. İ., Şahin B., Ödevci N., (2020) Fictional Design Support Model for Increasing Daylight Efficiency in Architectural Planning, Journal of Design Theory, 16 (29), 53-78.
  • [7] Arpacıoğlu Ü., (2012), An Important Factor for Spatial Quality and Comfort: Günışığı, Architecture Magazine, 49(368) 48-52.
  • [8] Uyan, E., Küçükdoğu, M.Ş., & Aydemir, I., (2018). Aydınlatma Kalitesini Belirleyen Psikolojik Parametrelerin Çalışma Alanı Örneğinde İncelenmesi, İstanbul Ticaret Üniversitesi Fen Bilimleri Dergisi, 17(33), 51-60.
  • [9] Morghen, I., Turola, M. C., Forini, E., Di Pasquale, P., Zanatta, P. & Matarazzo, T. (2009). ''III-Lighting Syndrome: Prevalence in Shift Work Personnel in the 86 Anaesthesiology and Intensive Care Department of Three Italian Hospitals''. Journal of Occupational Medicine and Toxicology, 4(6).
  • [10] Şener Yılmaz F., (2016) The Effect of Solar Control Design on Visual Comfort and Daylight Performance: Office Buildings, Online Journal of Art Design, 4(4), 47-62.
  • [11] Wirz Justic, A., Skene, D. J., & Münch, M., (2021). The relevance of daylight for humans. Journal of Biochemical Pharmacology, 191.
  • [12] Kutlu R., (2019) Sunlight as a Design Element, The Turkish Online Journal of Design, Art and Communication – TOJDAC, 9 (2), 226-233.
  • [13] Köknel Yener, A., (2007). Binalarda Günışığından Yararlanma Yöntemleri. VIII. Ulusal Tesisat Mühendisliği Kongresinde sunulan Sempozyum Bildirisi, 231-241. Erişim adresi: https://www1.mmo.org.tr/resimler/dosya_ekler/b4b098eec636a3f_ek.pdf
  • [14] Ünver, F.R., Çelik K., (2019), Sustainable Lighting Design Approach in Educational Buildings, Çukurova University Journal of Engineering and Architecture Faculty, 34(3), pp. 49-63
  • [15] Acosta I., Navarro J., Sendra J. J., (2013), Towards an analysis of the performance of lightwell skylights under overcast sky conditions, Energy and Buildings, 64, 10-16.
  • [16] Acosta I., Navarro J., Sendra J. J., (2015), Towards an analysis of the performance of monitor skylights under overcast sky conditions, Energy and Buildings, 88, 248-261.
  • [17] Fang Y., Cho S., (2018), Sensitivity Analysis of skylight and clerestory design on energy and daylight performance of a retail building Western Kentucky university, Bowling
  • [18] Erlendsson O., (2014), Daylight Optimization-A Parametric Study of Atrium Design: Early Stage Design Guidelines of Atria for Optimization of Daylight Autonomy.
  • [19] Cochran E., Pei Z., Marion F., Kolosky A., Loftness V., Aziz A., (2014), Integrated Dynamic Skylight Solutions to Reduce Energy Consumption and Improve Indoor Lighting Quality in US Buildings Erica. ACEEE Summer Study on Energy Efficiency in Buildings,5–50.
  • [20] Mccluney R., (1984), SKYMOD Annual Energy Performance Simulation Model for Skylights, Energy and Buildings, 6, 353 – 360.
  • [21] Xuan Q., Li G., Zhao B., Jiang B., Sun D., Zhang X., Tang J., Zhuang Y., Liu J., Li L., (2022), Evaluation of the smart daylighting control performance of the concentrating photovoltaic/daylighting system as the skylight in the building, Solar Energy, 238, 17-29.
  • [22] Dolnikova E., Katunsky D., Darula S., (2020) Assessment of overcast sky daylight conditions in the premises of engineering operations considering two types of skylights, Journal of Building and Environment, 180.
  • [23] Çevre, Şehirciliik ve İklim Değişikliği Bakanlığı, 2021. Planlı Alanlar İmar Yönetmeliği. Retrieved from https://www.mevzuat.gov.tr/File/GeneratePdf?mevzuatNo=23722&mevzuatTur=KurumVeKurulusYonetmeligi&mevzuatTertip=5 Last Access: 10.03.2023.
  • [24] TS EN 17037 Binalarda Günışığı Standardı
  • [25] Stevens, R. G., & Rea M. S. (2001). Light in the Built Environment: Potential role of Circadian Disruption in Endocrine Disruption and Breast Cancer. Cancer Causes & Control 12, 279–287.
  • [26] Gehrt D., Hafner M., Grollov S. T., Eliasen M., Christoffersen J., (2019), Healthy Homes Barometer 2019 Growing up in (un)healthy buildings.
  • [27] Katunsky, E. Dolnikova, B. Dolnik, (2018), Daytime lighting assessment in textile factory using connected windows in Slovakia; Case Study, Sustainabillity 10.
  • [28] Krüger E.L., Fonseca S.D., (2011), Evaluating Daylighting Potential And Energy Efficiency İn A Classroom Building, J. Renew. Sustain. Energy 3, 63112 (2011)
  • [29] Sümengen Ö., Köknel Yener A., (2015) Investigation of Daylight Variables in Determining Lighting Energy Performance in Buildings, Erciyes University Journal of Science Institute, 31 (2), 135-148.
  • [30] Altensis, (2022), Retrieved from https://www.altensis.com/hizmetler/designbuildr, Last Access: 13.05.2022.
  • [31] CIE International Commission on Illumination, Retrieved from https://cie.co.at/publications/international-standards Last access: 10.03.2023.
Toplam 31 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Tasarım ve Teknoloji
Yazarlar

Yaren Dilara Erdem 0009-0008-9844-4238

Şule Yılmaz Erten 0000-0002-5559-1405

Filiz Umaroğulları 0000-0002-9503-1816

Erken Görünüm Tarihi 13 Haziran 2023
Yayımlanma Tarihi 23 Haziran 2023
Gönderilme Tarihi 15 Mart 2023
Yayımlandığı Sayı Yıl 2023 Cilt: 11 Sayı: 2

Kaynak Göster

APA Erdem, Y. D., Yılmaz Erten, Ş., & Umaroğulları, F. (2023). The Effect of Vertical Skylights Designed in Buildings on Daylight Illumination. Gazi Üniversitesi Fen Bilimleri Dergisi Part C: Tasarım Ve Teknoloji, 11(2), 561-571. https://doi.org/10.29109/gujsc.1265787

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