Measuring The Quality of Natural Lighting in A Building with Double Skin Façade (DSF)
محورهای موضوعی : Architecture
A. E. Manubawa
1
,
LMF Purwanto
2
,
A. Ardiyanto
3
1 - Postgraduate Student, Department of Architecture, Soegijapranata Catholic University, Semarang, Indonesia.
2 - professor, Department of Architecture, Faculty of Architecture and Design Soegijaparanata Catholic University, Semarang Indonesia
3 - Lecturer at the Department of Architecture, Soegijapranata Catholic University, Semarang, Indonesia
کلید واژه: Natural Lighting, econdary Skin Façade, Computer Simulation,
چکیده مقاله :
Lately, a double skin façade (DSF) has been increasingly popular as an aesthetic and shading device. A façade with a secondary skin is employed in buildings to let natural light flow into the building without glare and heat. The purpose of this study is to examine the performance of secondary skin in buildings and to investigate the level of natural lighting in buildings that meets visual comfort standards according to the function of space in buildings. The object of this research is the Henricus Constant building of Soegijapranata Catholic University Semarang Indonesia. The research method used is descriptive quantitative. The authors assessed the level of natural lighting in the building by analyzing the results of field measurement data with luxmeter measuring devices and model simulations regarding natural shadows and lighting levels with Sketchup software and dialux. The results of this study suggest that secondary skins in the Henricus Constant building manage to create shade in the building’s interior, but the natural lighting level is only 30 lux, less than the standard lighting level of the classroom at 250 lux. Without the secondary skin, the average light intensity is 310 lux; thus, it causes glare and becomes visually uncomfortable.
Ahmed, M. M., Abel-Rahman, A. K., Ali, A. H. H., & Suzuki, M. (2016). Double skin façade: the state of art on building energy efficiency. Journal of Clean Energy Technologies, 4(1), 84-89.
Archdaily. (2012). Al Bahar Towers Responsive Facade / Aedas. Retrieved from: https://www.archdaily.com/270592/al-bahar-towers-responsive-facade-aedashttps
Campbell-Dollaghan, K. 2013. 5 Smart Building Skins That Breathe, Farm Energy And Gobble Up Toxins.
Elwazer, S. (2012). Cooling buildings in Abu Dhabi's heat -- CNN. https://edition.cnn.com/videos/world/2012/11/19/elwazer-eco-cool-buildings.cnn
Ghasemi, N. & Ghasemi, F., 2017, Double-skin Façade Technology and its Aspects in Field of Aesthetics, Environment and Energy Consumption Optimization, International Journal of Scientific Study, Vol 5, Issue 4, July 2017
Jafari, L., Khyrossadat, A., Mirhosseini, S.M. (2018). Performance Assessment of Double Skin Façade in Optimizing Building Energy Consumption (Case Study in Shiraz), International Journal of Applied Arts Studies. Vol. 2(3). 7-20
Lim, Y., & Ismail, M. R. (2018). Efficacy Of Double Skin Façade On Energy Consumption In Office Buildings In Phnom Penh City. International Transaction Journal Of Engineering Management & Applied Sciences & Technologies, 9(2), 119-132.
Mohapatra, B. N., Kumar, M. R., & Mandal, S. K. (2018). Analysis of daylighting using daylight factor and luminance for different room scenarios. International Journal of Civil Engineering and Technology (IJCIET), 9(10), 949-960.
Parra, J., Guardo, A., Egusquiza, E., & Alavedra, P. (2015). Thermal performance of ventilated double skin façades with venetian blinds. Energies, 8(6), 4882-4898.
Poursani, E. (2018). Double-Skin Façade System: Materials, Advantages & Examples. Retrieved from: https://study.com/academy/lesson/double-skin-fa-ade-system-materials-advantages-examples.html
Tureková, I., Lukáčová, D., & Bánesz, G. (2018). Quality Assessment of the University Classroom Lighting-A Case Study. TEM Journal, 7(4), 829.
Tzempelikos, A. (2017). Advances on daylighting and visual comfort research. Building and Environment, 100(113), 1-4.
