skip to main content

OPTIMASI SECONDARY SKIN UNTUK KUALITAS PENCAHAYAAN ALAMI. STUDI KASUS GEDUNG FAKULTAS SENI DAN DESAIN UNIVERITAS NEGERI SURABAYA

Muhammad Farel Fahrezi  -  Teknik Infrastruktur Sipil dan Perancangan Arsitektur, Sekolah Vokasi, Universitas Diponegoro, Indonesia
*Ratih Widiastuti orcid scopus  -  System Engineering, faculty of integrated technology, Universiti Brunei Darussalam, Indonesia

Citation Format:
Abstract
Façade as the outer layer of building has an important role in distributing the sunlight into the building. Building with maximum natural lighting will support energy saving campaigns. This study discussed the evaluation of building façade to support natural lighting distribution inside the rooms. The study applied simulation method using DIALux Evo software. The results from simulations compared to the lighting standard from SNI 6197-2011. The study object was the Faculty Building of Art and Design of State University of Surabaya. According to the simulation, 40% - 70% distribution of average natural lighting intensity exceeded 1000 Lux. It caused people who stayed inside the room to feel uncomfortable due to glare. To reduce the light intensity inside the room, additional layers on the exterior façade were added. The results from simulation confirmed the secondary layer on the exterior facade was able to reduce the natural lighting intensity from 279 Lux to 1112 Lux in the morning and from 256 Lux to 879 Lux in the afternoon. Thus, it can minimize the effect of glare inside the room.
Fulltext View|Download
Keywords: DIALux Evo; façade design; natural lighting simulation; secondary skin; wall opening

Article Metrics:

  1. Athaillah, A., Iqbal, M., & Situmeang, I. S. (2017). Simulasi Pencahayaan Alami Pada Gedung Program Studi Arsitektur Universitas Malikussaleh. NALARs, 16(2), 113. https://doi.org/10.24853/nalars.16.2.113-124
  2. Konservasi energi pada sistem pencahayaan Badan Standardisasi Nasional. (2011)
  3. Natalia, S., & Suharjanto, G. (2022). The Openings and Lighting Design Strategies of Primary School in Jakarta. IOP Conference Series: Earth and Environmental Science, 998(1), 012036. https://doi.org/10.1088/1755-1315/998/1/012036
  4. pn-surabayakota. (n.d.). Locator_Kecamatan_Surabaya
  5. Pratiwi, F. K., Kridarso, E. R., & Iskandar, J. (2021). Konsep Pencahayaan Alami Pada Desain Ruang Galeri Menggunakan Dialux Evo 9.2 (Studi Kasus: Desain Perancangan Gedung Pusat Pertunjukan Seni Dan
  6. Budaya di Taman Mini Indonesia Indah, Jakarta Timur). Jurnal Arsitektur ARCADE, 5(3), 310. https://doi.org/10.31848/arcade.v5i3.767
  7. Putri, C. R. (2015). Efisiensi Pencahayaan Pada Bangunan Gedung Dengan Bantuan Perangkat Lunak
  8. Ragilyani, N., & Dewi, A. P. (2021). Pengaruh Pencahayaan Alami Terhadap Kenyamanan Visual Di Ruang Studio Arsitektur Universitas Pancasila (Vol. 18, Issue 1)
  9. Satwiko, P. (2011). Pemakaian Perangkat Lunak Dialux Sebagai Alat Bantu Proses Belajar Tata Cahaya. Jurnal Arsitektur KOMPOSISI, 9(2), 142–154
  10. Standar Nasional Indonesia Badan Standardisasi Nasional Tata cara perancangan sistem pencahayaan alami pada bangunan gedung sni 2396. (n.d.)
  11. Syafitri, W. I. I., Nabilah, F., & Annisa Puspita, S. I. (2015). Orientasi Bangunan Terhadap Kenyamanan Termal pada Rumah Susun Leuw igajah Cimahi. In Jurnal Reka Karsa © Jurusan Teknik Arsitektur I tenas | No.1 | (Vol. 3)
  12. Wu, J. (2021). Simulation analysis of optimization design strategy of natural lighting in office buildings. IOP Conference Series: Earth and Environmental Science, 647(1). https://doi.org/10.1088/1755-1315/647/1/012191

Last update:

No citation recorded.

Last update: 2024-11-30 17:04:27

No citation recorded.