DECK ON PILE JETTY ANALYSIS ON LIQUEFIABLE SOILS STEAM-ELECTRIC POWER PLANT LOMBOK CASE STUDY
Deck on pile jetty systems is another typical of port structure that using a pile as a support <br /> <br /> of the main structural elements, the main role of pile is not only as a main structure <br /> <br /> support but also as a loads distributor to the soil. <br />...
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id-itb.:262922018-03-15T16:05:12ZDECK ON PILE JETTY ANALYSIS ON LIQUEFIABLE SOILS STEAM-ELECTRIC POWER PLANT LOMBOK CASE STUDY ANGGIE ANGGRIANY (NIM : 25514301), CITRA Indonesia Theses INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/26292 Deck on pile jetty systems is another typical of port structure that using a pile as a support <br /> <br /> of the main structural elements, the main role of pile is not only as a main structure <br /> <br /> support but also as a loads distributor to the soil. <br /> <br /> Besides the strength analysis of main port structure, a further analysis of soil resistance <br /> <br /> are also important. If the soil characteristic are dominant with a typical of sand, a <br /> <br /> reviewed of liquefaction potential analysis has to be considered. Liquefaction in soil <br /> <br /> means a phenomenon that occurs in non-cohesion soil for example sand, it struggled from <br /> <br /> a natural shocks like an earthquake which generate the water inside the soil pores to raise <br /> <br /> and create a loss of connections between soil particles, these leads to a shrinkage in soil <br /> <br /> capacity. <br /> <br /> This research intended to analyze the existing port structure due to the detection of <br /> <br /> potential soil liquefactions. The initial analysis is to figure out the liquefaction potentials <br /> <br /> in every layers of soil in order to discover which layer had experienced the liquefactions. <br /> <br /> The analysis will proceed by calculating the interaction between the soil and structure <br /> <br /> that will be presented in p-y curve, t-z curve, and Q-z curve. These curves represents the <br /> <br /> behavior of soil capacity. The p-y curve will be reviewed in 2 conditions which are the <br /> <br /> p-y curve on regular sand soil that has not experienced a liquefaction and p-y curves on <br /> <br /> the liquefied sand soil. <br /> <br /> A finite element software SAP2000 were used to create a structure analysis, every loads <br /> <br /> data obtained from the field survey will be used as inputs for structure model in order to <br /> <br /> visualize the structure behavior as close as the conditions in reality. There are two <br /> <br /> conditions in structure analysis, the first conditions is a normal condition or no <br /> <br /> liquefaction, and the second is the condition of earthquake (after-shock) or liquefaction <br /> <br /> condition in the soil of foundation. <br /> <br /> Every reviewed parameters creates an analysis results for each two structure conditions. <br /> <br /> For the first structure condition which does not experienced with a liquefactions, the <br /> <br /> structure model in the analysis has a structure durability and soil stability against the <br /> <br /> loads. However, in the second analysis where liquefactions had occured, the structure and <br /> <br /> soil failure on some parameters. text |
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Deck on pile jetty systems is another typical of port structure that using a pile as a support <br />
<br />
of the main structural elements, the main role of pile is not only as a main structure <br />
<br />
support but also as a loads distributor to the soil. <br />
<br />
Besides the strength analysis of main port structure, a further analysis of soil resistance <br />
<br />
are also important. If the soil characteristic are dominant with a typical of sand, a <br />
<br />
reviewed of liquefaction potential analysis has to be considered. Liquefaction in soil <br />
<br />
means a phenomenon that occurs in non-cohesion soil for example sand, it struggled from <br />
<br />
a natural shocks like an earthquake which generate the water inside the soil pores to raise <br />
<br />
and create a loss of connections between soil particles, these leads to a shrinkage in soil <br />
<br />
capacity. <br />
<br />
This research intended to analyze the existing port structure due to the detection of <br />
<br />
potential soil liquefactions. The initial analysis is to figure out the liquefaction potentials <br />
<br />
in every layers of soil in order to discover which layer had experienced the liquefactions. <br />
<br />
The analysis will proceed by calculating the interaction between the soil and structure <br />
<br />
that will be presented in p-y curve, t-z curve, and Q-z curve. These curves represents the <br />
<br />
behavior of soil capacity. The p-y curve will be reviewed in 2 conditions which are the <br />
<br />
p-y curve on regular sand soil that has not experienced a liquefaction and p-y curves on <br />
<br />
the liquefied sand soil. <br />
<br />
A finite element software SAP2000 were used to create a structure analysis, every loads <br />
<br />
data obtained from the field survey will be used as inputs for structure model in order to <br />
<br />
visualize the structure behavior as close as the conditions in reality. There are two <br />
<br />
conditions in structure analysis, the first conditions is a normal condition or no <br />
<br />
liquefaction, and the second is the condition of earthquake (after-shock) or liquefaction <br />
<br />
condition in the soil of foundation. <br />
<br />
Every reviewed parameters creates an analysis results for each two structure conditions. <br />
<br />
For the first structure condition which does not experienced with a liquefactions, the <br />
<br />
structure model in the analysis has a structure durability and soil stability against the <br />
<br />
loads. However, in the second analysis where liquefactions had occured, the structure and <br />
<br />
soil failure on some parameters. |
| format |
Theses |
| author |
ANGGIE ANGGRIANY (NIM : 25514301), CITRA |
| spellingShingle |
ANGGIE ANGGRIANY (NIM : 25514301), CITRA DECK ON PILE JETTY ANALYSIS ON LIQUEFIABLE SOILS STEAM-ELECTRIC POWER PLANT LOMBOK CASE STUDY |
| author_facet |
ANGGIE ANGGRIANY (NIM : 25514301), CITRA |
| author_sort |
ANGGIE ANGGRIANY (NIM : 25514301), CITRA |
| title |
DECK ON PILE JETTY ANALYSIS ON LIQUEFIABLE SOILS STEAM-ELECTRIC POWER PLANT LOMBOK CASE STUDY |
| title_short |
DECK ON PILE JETTY ANALYSIS ON LIQUEFIABLE SOILS STEAM-ELECTRIC POWER PLANT LOMBOK CASE STUDY |
| title_full |
DECK ON PILE JETTY ANALYSIS ON LIQUEFIABLE SOILS STEAM-ELECTRIC POWER PLANT LOMBOK CASE STUDY |
| title_fullStr |
DECK ON PILE JETTY ANALYSIS ON LIQUEFIABLE SOILS STEAM-ELECTRIC POWER PLANT LOMBOK CASE STUDY |
| title_full_unstemmed |
DECK ON PILE JETTY ANALYSIS ON LIQUEFIABLE SOILS STEAM-ELECTRIC POWER PLANT LOMBOK CASE STUDY |
| title_sort |
deck on pile jetty analysis on liquefiable soils steam-electric power plant lombok case study |
| url |
https://digilib.itb.ac.id/gdl/view/26292 |
| _version_ |
1822921848614027264 |