RELIABILITY ANALYSIS OF FIXED PROCESSING PLATFORM DUE TO SEABED SUBSIDENCE AND THE EFFECT OF WAVE LOAD IN DECK
The structural integrity of fixed platform may be affected from excessive load on structure and insufficient strength of the structure. Another factor which affects the structural integrity is seabed subsidence. Seabed subsidence occurs due to vertical movement of soil layers and soil consolidati...
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id-itb.:713302023-01-31T13:34:50ZRELIABILITY ANALYSIS OF FIXED PROCESSING PLATFORM DUE TO SEABED SUBSIDENCE AND THE EFFECT OF WAVE LOAD IN DECK Cendekia Suprobo, Linda Indonesia Theses fixed platform, probability of failure, reliability index, reserve strength ratio, wave in deck INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/71330 The structural integrity of fixed platform may be affected from excessive load on structure and insufficient strength of the structure. Another factor which affects the structural integrity is seabed subsidence. Seabed subsidence occurs due to vertical movement of soil layers and soil consolidation. The impact of seabed subsidence will lead to decreased of deck clearance or air gap and cause wave hits the deck. The aim of the study is to determine the effect of wave load in deck by pushover and reliability analysis. The pushover analysis is performed first by considering 100- year environmental load to obtain RSR. The wave height at the collapse is calculated based on RSR. The wave load in deck calculation is according to American Petroleum Institute (API). The pushover with inclusion wave load in deck is necessary to be carried out to gain the updated RSR. The reliability analysis is computed by involving base shear of fixed platform at the collapse from pushover analysis with wave load in deck. FORM and Monte Carlo simulation technique method are adopted in the analysis. One million data of wave height and wave period as random variables is generated by MATLAB software. This study is also to perform the probability of failure and reliability index due to wave load in deck. As expected, the updated RSR with wave load in deck is lower than the RSR without wave load in deck. Then, the probability of failure increases with the increase of the depth of subsidence. Therefore, the reliability index decreases with the increase of the depth of subsidence. text |
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The structural integrity of fixed platform may be affected from excessive load on
structure and insufficient strength of the structure. Another factor which affects the
structural integrity is seabed subsidence. Seabed subsidence occurs due to vertical
movement of soil layers and soil consolidation. The impact of seabed subsidence
will lead to decreased of deck clearance or air gap and cause wave hits the deck.
The aim of the study is to determine the effect of wave load in deck by pushover and
reliability analysis. The pushover analysis is performed first by considering 100-
year environmental load to obtain RSR. The wave height at the collapse is
calculated based on RSR. The wave load in deck calculation is according to
American Petroleum Institute (API). The pushover with inclusion wave load in deck
is necessary to be carried out to gain the updated RSR. The reliability analysis is
computed by involving base shear of fixed platform at the collapse from pushover
analysis with wave load in deck. FORM and Monte Carlo simulation technique
method are adopted in the analysis. One million data of wave height and wave
period as random variables is generated by MATLAB software. This study is also
to perform the probability of failure and reliability index due to wave load in deck.
As expected, the updated RSR with wave load in deck is lower than the RSR without
wave load in deck. Then, the probability of failure increases with the increase of
the depth of subsidence. Therefore, the reliability index decreases with the increase
of the depth of subsidence.
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| format |
Theses |
| author |
Cendekia Suprobo, Linda |
| spellingShingle |
Cendekia Suprobo, Linda RELIABILITY ANALYSIS OF FIXED PROCESSING PLATFORM DUE TO SEABED SUBSIDENCE AND THE EFFECT OF WAVE LOAD IN DECK |
| author_facet |
Cendekia Suprobo, Linda |
| author_sort |
Cendekia Suprobo, Linda |
| title |
RELIABILITY ANALYSIS OF FIXED PROCESSING PLATFORM DUE TO SEABED SUBSIDENCE AND THE EFFECT OF WAVE LOAD IN DECK |
| title_short |
RELIABILITY ANALYSIS OF FIXED PROCESSING PLATFORM DUE TO SEABED SUBSIDENCE AND THE EFFECT OF WAVE LOAD IN DECK |
| title_full |
RELIABILITY ANALYSIS OF FIXED PROCESSING PLATFORM DUE TO SEABED SUBSIDENCE AND THE EFFECT OF WAVE LOAD IN DECK |
| title_fullStr |
RELIABILITY ANALYSIS OF FIXED PROCESSING PLATFORM DUE TO SEABED SUBSIDENCE AND THE EFFECT OF WAVE LOAD IN DECK |
| title_full_unstemmed |
RELIABILITY ANALYSIS OF FIXED PROCESSING PLATFORM DUE TO SEABED SUBSIDENCE AND THE EFFECT OF WAVE LOAD IN DECK |
| title_sort |
reliability analysis of fixed processing platform due to seabed subsidence and the effect of wave load in deck |
| url |
https://digilib.itb.ac.id/gdl/view/71330 |
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