PEAK GROUND ACCELERATION AT SURFACE AND SPECTRAL ACCELERATION FOR MAKASSAR CITY BASED ON A PROBABILISTIC APPROACH

PEAK GROUND ACCELERATION AT SURFACE AND SPECTRAL ACCELERATION FOR MAKASSAR CITY BASED ON A PROBABILISTIC APPROACH

The December 12, 2010 earthquakes (M 5.9) has drawn attention on the importance of knowledge of peak ground acceleration at surface (PGAM) and spectral acceleration for Makassar City. The PGAM and spectral acceleration play an important role in seismic design regulations. The purpose of this paper i...

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Main Authors: Bambang Sunardi, Jimmi Nugraha
Format: Article
Language:English
Published: Pusat Penelitian dan Pengembangan Badan Meteorologi Klimatologi dan Geofisika 2016-10-01
Series:Jurnal Meteorologi dan Geofisika
Subjects:
Peak ground acceleration at surface
spectral acceleration
PSHA
Vs30
Online Access:http://puslitbang.bmkg.go.id/jmg/index.php/jmg/article/view/380
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spelling doaj-f71e3eaff76246b283e63555e758595b2020-11-25T01:08:11ZengPusat Penelitian dan Pengembangan Badan Meteorologi Klimatologi dan GeofisikaJurnal Meteorologi dan Geofisika1411-30822527-53722016-10-0117110.31172/jmg.v17i1.380221PEAK GROUND ACCELERATION AT SURFACE AND SPECTRAL ACCELERATION FOR MAKASSAR CITY BASED ON A PROBABILISTIC APPROACHBambang Sunardi0Jimmi Nugraha1Badan Meteorologi Klimatologi dan Geofisika (BMKG)Badan Meteorologi Klimatologi dan Geofisika (BMKG)The December 12, 2010 earthquakes (M 5.9) has drawn attention on the importance of knowledge of peak ground acceleration at surface (PGAM) and spectral acceleration for Makassar City. The PGAM and spectral acceleration play an important role in seismic design regulations. The purpose of this paper is to present the PGAM and spectral acceleration for Makassar City based on a probabilistic approach. The analysis involved determination of peak ground acceleration at bedrock using Probabilistic Seismic Hazard Analysis (PSHA), the average shear wave velocity at 30 m depth (Vs30), and site classification. Results of the analysis showed that the values of PGAM for Makassar City were varied from 0.177 – 0.21 g. Meanwhile, the spectral acceleration values at T = 0.2 and T = 1 second were varied from 0.459 – 0.541 g and 0.277 – 0.369 g respectively. From these results, the values of PGAM and spectral acceleration are relatively higher at Tamalanrea and Biringkanaya districts and relatively lower at Tamalate district in comparison to other districts in Makassar City. This condition is associated with the location of those areas which are relatively closer to the  earthquake source (Walanae fault), and is geologically dominated by stiff soil (SD). Gempa 12 Desember 2010 (M5.9) menarik perhatian kita akan pentingnya pengetahuan tentang percepatan tanah maksimum di permukaan (PGAM) dan spektra percepatan untuk Kota Makassar. PGAM dan spektra percepatan memegang peranan penting dalam peraturan desain gempa. Tujuan dari penelitian ini adalah menentukan PGAM dan percepatan spektra untuk Kota Makassar berdasarkan pendekatan probabilistik. Analisis yang dilakukan meliputi penentuan percepatan tanah maksimum di batuan dasar menggunakan Probabilistic Seismic Hazard Analysis (PSHA), rata-rata kecepatan gelombang geser pada kedalaman 30 m (Vs30), dan klasifikasi site. Hasil analisis menunjukkan bahwa nilai PGAM untuk Kota Makassar bervariasi dari 0.177 – 0.21 g. Sementaraitu, nilai spektra percepatan pada T=0.2 dan T=1 detik berturut-turut bervariasi dari 0.459 – 0.541 g dan 0.277 – 0.369 g. Nilai PGAM dan spektra percepatan relatif lebih tinggi di Kecamatan Tamalanrea dan Biringkanaya serta relatif lebih rendah di Kecamatan Tamalate dibandingkan dengan Kecamatan lainnya di Kota Makassar. Hal tersebut dikarenakan lokasinya yang relatif lebih dekat dengan sumber gempa (patahan Walanae), dan secara geologi di dominasi oleh jenis tanah sedang (SD).http://puslitbang.bmkg.go.id/jmg/index.php/jmg/article/view/380Peak ground acceleration at surfacespectral accelerationPSHAVs30
collection DOAJ
language English
format Article
sources DOAJ
author Bambang Sunardi
Jimmi Nugraha
spellingShingle Bambang Sunardi
Jimmi Nugraha
PEAK GROUND ACCELERATION AT SURFACE AND SPECTRAL ACCELERATION FOR MAKASSAR CITY BASED ON A PROBABILISTIC APPROACH
Jurnal Meteorologi dan Geofisika
Peak ground acceleration at surface
spectral acceleration
PSHA
Vs30
author_facet Bambang Sunardi
Jimmi Nugraha
author_sort Bambang Sunardi
title PEAK GROUND ACCELERATION AT SURFACE AND SPECTRAL ACCELERATION FOR MAKASSAR CITY BASED ON A PROBABILISTIC APPROACH
title_short PEAK GROUND ACCELERATION AT SURFACE AND SPECTRAL ACCELERATION FOR MAKASSAR CITY BASED ON A PROBABILISTIC APPROACH
title_full PEAK GROUND ACCELERATION AT SURFACE AND SPECTRAL ACCELERATION FOR MAKASSAR CITY BASED ON A PROBABILISTIC APPROACH
title_fullStr PEAK GROUND ACCELERATION AT SURFACE AND SPECTRAL ACCELERATION FOR MAKASSAR CITY BASED ON A PROBABILISTIC APPROACH
title_full_unstemmed PEAK GROUND ACCELERATION AT SURFACE AND SPECTRAL ACCELERATION FOR MAKASSAR CITY BASED ON A PROBABILISTIC APPROACH
title_sort peak ground acceleration at surface and spectral acceleration for makassar city based on a probabilistic approach
publisher Pusat Penelitian dan Pengembangan Badan Meteorologi Klimatologi dan Geofisika
series Jurnal Meteorologi dan Geofisika
issn 1411-3082
2527-5372
publishDate 2016-10-01
description The December 12, 2010 earthquakes (M 5.9) has drawn attention on the importance of knowledge of peak ground acceleration at surface (PGAM) and spectral acceleration for Makassar City. The PGAM and spectral acceleration play an important role in seismic design regulations. The purpose of this paper is to present the PGAM and spectral acceleration for Makassar City based on a probabilistic approach. The analysis involved determination of peak ground acceleration at bedrock using Probabilistic Seismic Hazard Analysis (PSHA), the average shear wave velocity at 30 m depth (Vs30), and site classification. Results of the analysis showed that the values of PGAM for Makassar City were varied from 0.177 – 0.21 g. Meanwhile, the spectral acceleration values at T = 0.2 and T = 1 second were varied from 0.459 – 0.541 g and 0.277 – 0.369 g respectively. From these results, the values of PGAM and spectral acceleration are relatively higher at Tamalanrea and Biringkanaya districts and relatively lower at Tamalate district in comparison to other districts in Makassar City. This condition is associated with the location of those areas which are relatively closer to the  earthquake source (Walanae fault), and is geologically dominated by stiff soil (SD). Gempa 12 Desember 2010 (M5.9) menarik perhatian kita akan pentingnya pengetahuan tentang percepatan tanah maksimum di permukaan (PGAM) dan spektra percepatan untuk Kota Makassar. PGAM dan spektra percepatan memegang peranan penting dalam peraturan desain gempa. Tujuan dari penelitian ini adalah menentukan PGAM dan percepatan spektra untuk Kota Makassar berdasarkan pendekatan probabilistik. Analisis yang dilakukan meliputi penentuan percepatan tanah maksimum di batuan dasar menggunakan Probabilistic Seismic Hazard Analysis (PSHA), rata-rata kecepatan gelombang geser pada kedalaman 30 m (Vs30), dan klasifikasi site. Hasil analisis menunjukkan bahwa nilai PGAM untuk Kota Makassar bervariasi dari 0.177 – 0.21 g. Sementaraitu, nilai spektra percepatan pada T=0.2 dan T=1 detik berturut-turut bervariasi dari 0.459 – 0.541 g dan 0.277 – 0.369 g. Nilai PGAM dan spektra percepatan relatif lebih tinggi di Kecamatan Tamalanrea dan Biringkanaya serta relatif lebih rendah di Kecamatan Tamalate dibandingkan dengan Kecamatan lainnya di Kota Makassar. Hal tersebut dikarenakan lokasinya yang relatif lebih dekat dengan sumber gempa (patahan Walanae), dan secara geologi di dominasi oleh jenis tanah sedang (SD).
topic Peak ground acceleration at surface
spectral acceleration
PSHA
Vs30
url http://puslitbang.bmkg.go.id/jmg/index.php/jmg/article/view/380
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