ANALISIS AREA PERLINDUNGAN SISTEM PROTEKSI PETIR PADA GEDUNG DENGAN SIMULASI PENEMPATAN DAN JUMLAH FINIAL
DOI:
https://doi.org/10.29303/abdiinsani.v11i2.1213Keywords:
Building Protection Area, Lightning StrikesAbstract
The theory and application of external lightning protection systems for buildings are not included in the curriculum of the Electrical Engineering Department. Instead, this material is introduced to students through skill training outside regular class schedules, with a focus on components of external lightning protection systems such as finials, down conductors, and grounding. The obligation to install lightning protection systems on buildings is mandated by Law No. 28 of 2002 and Government Regulation No. 36 of 2005. Protection from lightning requires precise planning to be effective in safeguarding buildings. Analysis of lightning strike phenomena and their consequences can be conducted by applying theoretical principles, such as electric fields, magnetic fields, induction voltage, and various theorems related to lightning strike phenomena. Students are provided with an understanding of the concept of lightning strikes, the potential dangers, and the damage they can cause to buildings, living beings, and electronic equipment both inside and outside the building that is affected by lightning strikes. In this simulation, each group is given images of buildings with varying roof shapes and sizes. The buildings are equipped with external lightning protection systems, including the number and placement of finials on the roof, which are then simulated. The effectiveness of the finials placed in these locations is tested to analyze the extent of protection, to ensure that the building is protected from the dangers of lightning strikes. A total of 40 students participated in this activity, divided into 8 groups. Five groups successfully simulated the installation of finials to achieve an effective level of protection against lightning strikes, while the remaining three groups could only determine the extent of the protection area without being able to plan the installation efficiently. This training provides a benefit by enhancing the knowledge and skills of the students. The students' enthusiasm is reflected in active discussions and question-and-answer sessions that contribute to problem-solving.
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References
Atmam., & Situmeang, U. (2015). Perancangan Kinerja Penangkal Petir Menggunakan Metoda Bola Gelinding Pada Gedung Perpustakaan Universitas Lancang Kuning Pekanbaru. Jurnal Sains, Teknologi dan Industri, 13(1), 130-135.
BMKG. 2023. Peta Isokeraunik Level. Mataram
BMKG. 2023. Peta Sambaran Petir. Mataram
Hasse, P. (1992). Over Voltage Protection of Low Voltage Systems. IEEE Power Series 12, Peter Pergrinus: Ltd, London.
Hayt, W. H., & Buck, J. A. (2010). Elektromagnetika Teknologi, Vol. -, Ed. 10. Jakarta Indonesia. Penerbit Erlangga.
Indonesia. 2002. Undang-undang No. 28 Tahun 2002 tentang Bangunan Gedung. Sekretariat Negara, Jakarta.
Indonesia. 2004. Sistem Proteksi Petir pada Gedung, SNI 03-7015-2004. 2004
Indonesia. Peraturan Pemerintah No. 36 Tahun 2005, Pasal 35 ayat (1) Setiap bangunan gedung yang berdasarkan letak, sifat geografis, bentuk, ketinggian, dan penggunaannya berisiko terkena sambaran petir harus dilengkapi dengan instalasi penangkal petir. Sekretariat Negara, Jakarta.
Jakarta. 2006. Peraturan Menteri PU No. 29/PRT/M/2006 tentang pedoman persyaratan teknis bangunan gedung. Sekretariat Negara, Jakarta.
Saini, M., Yunus, A. M. S., & Pangkung, A. (2016). Pengembangan Sistem Penangkal Petir dan Pentanahan Elektroda Rod dan Plat. Jurnal INTEK.
Seniari, N.M., Rosmaliati., Supriyatna., Natsir, A., Adnyani, I. A. S., & Nababan, S. (2020). Pengenalan Pemasangan Sistem Proteksi Petir (SPP) Eksternal Pada Gedung di Kota Mataram. Prosiding Seminar Nasional Hasil Pengabdian Kepada Masyarakat Universitas Negeri Makassar. Makasar.
Seniari, N.M., Ginarsa, I.M., Citarsa, I.B.F., Supriyatna., & Adnyani, I.A.S. (2021). Electric and Magnetic Fields Around the Tower Due to Lightning-Strikeus Lightning Current Simulation. Proceeding ICST (International Conference on Science and Technology), 540-251, Mataram
Seniari, N. M., & Dharma, B.W. (2020). Penyuluhan Cara Mengurangi Bahaya Radiasi Gelombang Elektromagnetik Pada Kesehatan di Kelurahan Pagutan Barat Mataram. Jurnal Bakti Nusa, 1(1), 32-38.
Seniari, N.M., & Dharma, B.W. (2020). Penyuluhan Bahaya Radiasi Gelombang Elekromagnetik pada Organ Tubuh Mahluk Hidup di Kelurahan Pagutan Barat Mataram, Prosiding PEPADU 2020, 2(-), 230-235, LPPM Universitas Mataram, Mataram.
Seniari, N.M., Supriyatna., Natsir, A., Adnyani, I.A.S., & Nababan, S. (2021). Pengenalan Instalasi Petir pada Gedung di SMAN 8 Mataram. Jurnal Karya Pengabdian, 3(2).
Sukmawidjaja, M., Abduh, S., & Nadia, S. (2015). Analisis Perancangan Sistem Proteksi Bangunan The Bellagio Residence terhadap Sambaran Petir. JETri, 12(2), 75-86.
Sutrisna, I.W., Seniari, N.M., & Ginarsa, I.M. (2017). Analisis Tegangan Lebih Induksi Di Sekitar Down Conductor Yang Terinjeksi Arus Petir (Studi Kasus Gedung STAHN Gde Pudja Mataram dan Gardu Hubung Gomong). Jurnal Dielektrika, 4(1), 1-9.
Tabani, N.M., Mvungi, N.H., & Kyaruzy, A. (2013). Simulink Based Modelling and Simulation of the Communication Tower Grounding System. International Symposium on Lightning Protection (XII SIPDA).
Taher, A., Said. A., Eliyan, T., & Hafez, A. (2020). Analysis and Mitigation of Ground Grid Lightning Potential Rise. Transactions on Electrical and Electronic Materials.
