The Effect of Various Peak Ground Acceleration Level in Petobo Irrigation Canal Area Post 2018's Liquefaction Disaster
The soil liquefaction disaster in Petobo, Central Sulawesi, caused massive terrain damage. With a total displacement of up to 800 meters and a total sliding area of 1.43 km2, the soil structure was deformed. The 7.5 Mw earthquake with the maximum PGA of 0.45 was causing flow-induced liquefaction wit...
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id-ugm-repo.2821912023-11-28T07:15:37Z https://repository.ugm.ac.id/282191/ The Effect of Various Peak Ground Acceleration Level in Petobo Irrigation Canal Area Post 2018's Liquefaction Disaster Sauri, S. Rifa'I, A. Hardiyatmo, H. C. Civil Engineering not elsewhere classified The soil liquefaction disaster in Petobo, Central Sulawesi, caused massive terrain damage. With a total displacement of up to 800 meters and a total sliding area of 1.43 km2, the soil structure was deformed. The 7.5 Mw earthquake with the maximum PGA of 0.45 was causing flow-induced liquefaction with a distance from the crown to the foot of the landslide as far as 2 km. The research aims to find out how well the post-earthquake soil can withstand the potential to liquefaction if it is hit by various earthquake levels. This research will conduct several simulations to determine the soil performance against earthquakes. The empirical calculation method is carried out by referring to Idris-Boulanger to determine the liquefaction safety factor. Based on several scenarios that have been carried out, post-earthquake land can be re-liquefy when shaken by an earthquake with a certain level below the magnitude of the 7.5 Mw 2018's Palu earthquake. There are a total of six different scenarios of earthquakes with various level of PGA. The soils still have the possibility to liquefy with the PGA of 0.20 and can be considered safe as the PGA value of 0.13. Mitigation efforts, including soil remediation, must be carried out before reconstructing phase of the Petobo irrigation canal starts. © Published under licence by IOP Publishing Ltd. 2022 Conference or Workshop Item PeerReviewed application/pdf en https://repository.ugm.ac.id/282191/1/Sauri_2022_The%20Effect%20of%20Various%20Peak%20Ground%20AccelerationLevel%20in.pdf Sauri, S. and Rifa'I, A. and Hardiyatmo, H. C. (2022) The Effect of Various Peak Ground Acceleration Level in Petobo Irrigation Canal Area Post 2018's Liquefaction Disaster. In: The 9th AUN/SEED-Net Regional Conference on Natural Disaster. https://iopscience.iop.org/article/10.1088/1755-1315/1091/1/012038 |
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Civil Engineering not elsewhere classified Sauri, S. Rifa'I, A. Hardiyatmo, H. C. The Effect of Various Peak Ground Acceleration Level in Petobo Irrigation Canal Area Post 2018's Liquefaction Disaster |
| description |
The soil liquefaction disaster in Petobo, Central Sulawesi, caused massive terrain damage. With a total displacement of up to 800 meters and a total sliding area of 1.43 km2, the soil structure was deformed. The 7.5 Mw earthquake with the maximum PGA of 0.45 was causing flow-induced liquefaction with a distance from the crown to the foot of the landslide as far as 2 km. The research aims to find out how well the post-earthquake soil can withstand the potential to liquefaction if it is hit by various earthquake levels. This research will conduct several simulations to determine the soil performance against earthquakes. The empirical calculation method is carried out by referring to Idris-Boulanger to determine the liquefaction safety factor. Based on several scenarios that have been carried out, post-earthquake land can be re-liquefy when shaken by an earthquake with a certain level below the magnitude of the 7.5 Mw 2018's Palu earthquake. There are a total of six different scenarios of earthquakes with various level of PGA. The soils still have the possibility to liquefy with the PGA of 0.20 and can be considered safe as the PGA value of 0.13. Mitigation efforts, including soil remediation, must be carried out before reconstructing phase of the Petobo irrigation canal starts. © Published under licence by IOP Publishing Ltd. |
| format |
Conference or Workshop Item PeerReviewed |
| author |
Sauri, S. Rifa'I, A. Hardiyatmo, H. C. |
| author_facet |
Sauri, S. Rifa'I, A. Hardiyatmo, H. C. |
| author_sort |
Sauri, S. |
| title |
The Effect of Various Peak Ground Acceleration Level in Petobo Irrigation Canal Area Post 2018's Liquefaction Disaster |
| title_short |
The Effect of Various Peak Ground Acceleration Level in Petobo Irrigation Canal Area Post 2018's Liquefaction Disaster |
| title_full |
The Effect of Various Peak Ground Acceleration Level in Petobo Irrigation Canal Area Post 2018's Liquefaction Disaster |
| title_fullStr |
The Effect of Various Peak Ground Acceleration Level in Petobo Irrigation Canal Area Post 2018's Liquefaction Disaster |
| title_full_unstemmed |
The Effect of Various Peak Ground Acceleration Level in Petobo Irrigation Canal Area Post 2018's Liquefaction Disaster |
| title_sort |
effect of various peak ground acceleration level in petobo irrigation canal area post 2018's liquefaction disaster |
| publishDate |
2022 |
| url |
https://repository.ugm.ac.id/282191/1/Sauri_2022_The%20Effect%20of%20Various%20Peak%20Ground%20AccelerationLevel%20in.pdf https://repository.ugm.ac.id/282191/ https://iopscience.iop.org/article/10.1088/1755-1315/1091/1/012038 |
| _version_ |
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