MEREDUKSI BEBAN ANGIN DENGAN TRANSFORMASI BENTUK TEKNIK EXTRUDE DALAM FOLDING ARCHITECTURE (STUDI KASUS HOTEL MAHKOTA SINGKAWANG)
DOI:
https://doi.org/10.26418/jmars.v11i2.63164Keywords:
Wind Load, Reduction, Form, Transformation, Folding ArchitectureAbstract
Wind load is one of the main calculations in architectural design, and in the initial process, a designer is more dominant in directing shapes based on structure rather than expressing himself in the form of his design work. While form is the basic element that appears in architectural work, there are various methods of finding forms that have appeared in the development of architectural science. For this reason, the concept of folding architecture is focused on how to process shapes, using the "folding extrude" technique to produce shapes that can reduce the amount of wind load. The object taken in this study is a tall building, with the chosen case study namely the Mahkota Hotel Singkawang, which is the tallest building in West Kalimantan Province. This study raises the simulation process to be carried out by digital simulation with Computational Fluid Dynamics in Autodesk CFD software. The results of this study are from the transformation of the folding extrude technique which has the same shape as one of the architectural elements. From the results of a comparison of the wind load on the surface of ordinary buildings and the results of the folding extrude form, it is proven to be able to reduce wind loads by 15.1%.
References
Adams, T. (1995). The Eisenman – Deleuze Fold. New Zealand: The Univercity of Auckland
Antoniades, A. C. (1990). Poetics of Architecture. New York: Van Nostrand Reinhold
Badan Standarisasi Nasional. (2020). SNI-1727-2020 tentang Beban Desain Minimum dan Kriteria Terkait untuk Bangunan Gedung dan Struktur Lain. Jakarta: Badan Standarisasi Nasional
Boutet, T. (1987). Controlling Air Movement. New York: McGraw Hil
Ching, F. D. K. (2008). Arsitektur: Bentuk, Ruang dan Tatanannya. Jakarta: Erlangga
Deleuze, G. (1995). The Fold, Leibniz and The Baroque. London: The Athlone Press
Frick, H., Ardiyanto, A., & Darmawan, A. (2008). Ilmu Fisika Bangunan. Yogyakarta: Kanisius
Gregory, M., Supardjo, S., & Mandey, J. (2017). Gelanggan Olahraga Lohoraung Di Tagulandang “Folding Architectureâ€. Jurnal Arsitektur Daseng, 6(1), 77-86
Groat, L., & Wang, D. (2013). Architectural Research Methods – Second Edition. New Jersey: John Wiley & Sons, Inc
Hendraningsih, Wisaksana, I., Achdiat, N., Panjaitan, T., Nurhadi, & Triono, D. (1982). Peran, Kesan, dan Pesan Bentuk – Bentuk Arsitektur. Jakarta: Penerbit Djambatan
Lippsmeier, G. (1997). Tropenbau Building in The Tropics, Bangunan Tropis. Jakarta: Erlangga.
Lynn, G. (1993). Folding in Architecture. New Jersey: Wiley-Academy
Santamouris, M., & Allard, F. (1998). Natural Ventilation in Buildings: A Design Handbook. London: James & James
Sekretariat Negara Republik Indonesia. (2002). Undang – Undang Republik Indonesia No. 28 Tahun 2002 tentang Bangunan Gedung. Jakarta: Sekretariat Negara Republik Indonesia
Surasetja, R. I. (2007). Fungsi, Ruang, Bentuk dan Ekspresi dalam Arsitektur. Jurusan Pendidikan Teknik Arsitektur. Fakultas Pendidikan Teknologi dan Kejuruan. Universitas Pendidikan Indonesia
Suriawidjaja, E. P., & Sutedjo, S. P. (1986). Persepsi Bentuk dan Konsep Arsitektur. Jakarta: Djambatan
Taliawo, P., Tatore, R., & Rompas, L. (2018). Galeri Seni di Manado. Folding Architecture. Jurnal Arsitektur Daseng, 7(1), 128-136
Tuaika, F. (2008). Dasar – Dasar CFD dengan menggunakan FLUENT. Bandung: Informatika.
Ven, C. V. D. (1987). Space in Architecture. Netherland: Van Gocum & Comp
Vyzoviti, S. (2003). Folding Architecture: Spatial, Structural, and Organizational Diagrams. Amsterdam: Bis¬ Publisher
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