Optimalisasi Pencahayaan Alami di Pasar Batu Raja, Kec.Wasilei, Kabupaten Halmahera Timur
DOI:
https://doi.org/10.56127/jts.v4i3.2335Keywords:
optimization, natural lighting, market, skylightAbstract
Batu Raja Market is in UPT. Subaim SP.2. This market is located at 1°04'38"N and 128°07'59"E. This market only operates once a week, namely on Saturdays around 06.00 WIT to 13.00 WIT. The market initially took the form of non-permanent trading stalls with tin roofs, cloth, plastic, tarpaulin and so on. In 2019 this market was built into a permanent market with a tin roof. This is where the problem comes from, if the market is built with a tin roof then the traders in the middle of the market will not get enough sunlight to carry out their activities. This research attempts to solve this problem by optimizing the entry of natural light into the market. The research method was carried out by making 2 (two) 1:1 scale models of Batu Raja Market using the Revit 2018 program. The first model of Batu Raja Market had a tin roof and the second model of Batu Raja Market had a skylight roof. Lighting simulations were carried out for both models using the DIALux 4.7 program. Research results show that markets with skylight roofs receive more sunlight than those with tin roofs, so that the market interior is brighter, flatter and visually pleasing (M.C. and Lam, 1986) and attracts the attention of buyers (Mark S. Rea, Ph. D., 1986).
References
Ardianti Sabtalistia, Y., dan Sintia Dewi Wulanningrum. (2021). Aplikasi Skylight Dan Jendela Untuk Optimalisasi Pencahayaan Alami Pada Rumah Tinggal. Pawon: Jurnal Arsitektur, 5(1), 63–72. https://doi.org/10.36040/pawon.v5i1.3182
Fleta, A. (2021). Analisis Pencahayaan Alami dan Buatan Pada Ruang Kantor Terhadap Kenyamanan Visual Pengguna. Jurnal Patra, 3(1), 33–42. https://www.ejournal.kahuripan.ac.id/index.php/TECNOSCIENZA/article/view/63/47
Christy Vidiyanti, S. (2020). Efektivitas Skylight Sebagai Bukaan Pencahayaan Alami Pada Masjid, 2877, 120–125. https://doi.org/10.14710/mdl.20.2.2020.120-125
Susanto, A., dan Shadiqa, D. (2021). Pengaruh Desain Skylight dan Lightwell Terhadap Performa Pencahayaan Alami Pada Kondisi Overcast. Jurnal Arsitektur, Bangunan, dan Lingkungan, 11, 43–52. https://doi.org/dx.doi.org/10.22441/Vitruvian.2021.v11i1.005 p-ISSN
Sari, T. P. (2017). Konstribusi Skylight Terhadap Performa Pencahayaan Alami Greenhost Boutique Hotel Di Yogyakarta. Prosiding Seminar Nasional Energi Efficient For Sustainable Living, 45–61.
Kurniawan, C. C., Susanto, R. B., dan Amijaya, S. Y. (2022). Efektivitas Desain Skylight Sebagai Upaya untuk Memasukan Pencahayaan Alami dalam Ruang. SMART: Seminar on Architecture Research and Technology, 6(1), 13–24.
Indonesia, S. N., dan Nasional, B. S. (2001). Tata Cara Perancangan Sistem Pencahayaan Alami Pada Bangunan Gedung.
M.C., W., and Lam. (1986). Sunlighting as Formgiver for Architecture (1st ed.), Van Nostrand Reinhold.
Mark S. Rea, Ph.D., F. (1986). THE IESNA LIGHTING HANDBOOK, Ninth Edition (J. Block and M. R. P. M. C. John Bullough, Mariana Figueiro (eds.); 9th ed.). Publications Department IESNA 120 Wall Street, 17th Floor New York, NY 10005-4001 Preface.
Peterson, K. W., Ferzacca, N., Kennedy, S. D., Maccracken, M. M., Hogan, J. F., Alevantis, L. E., Benya, J., Bryan, H. J., Burgett, L. W., Burton, R., Cino, P., Collie, P., Cross, J. P., Delaura, L. L., Floyd, A. C., Gress, G., Mcclendon, J. P., & Mcguire, M. E. (2010). Standard for the Design of Green Buildings Except Low-Rise Residential Buildings. 8400.
