DESIGN AND ANALYSIS OF HOARD WITH MICROPILE TO SURMOUNT THE RECLAMATION SOIL INSTABILITY AT JAKARTA BAY
The escalation in population is directly relative to the escalation in the basic needs of the population. The accessibility of a place to stay and shelter is one of the basic human needs. To fulfill the needs, adequate land is required to construct a shelter. In densely populated coastal areas su...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/51737 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The escalation in population is directly relative to the escalation in the basic needs
of the population. The accessibility of a place to stay and shelter is one of the basic human
needs. To fulfill the needs, adequate land is required to construct a shelter. In densely
populated coastal areas such as the City of Jakarta, the reclamation area is one method of
providing land. The coastal area of Jakarta City has loam and soft soil conditions because it is
sited at the estuary of the rivers along the island of Java. Based on Geotechnical research, the
soil condition has a low level of stability, bearing capacity, shear resistance, and high
compressibility. However, if this type of soil is extended out by embankment on reclaimed
land, it will be caused large consolidation and in a long periode of time. Hence that a special
study is required for reclamation design work.
The aim of this study is to analyze and design a reclamation land at the Jakarta Bay, i.e. the
determination of the reclamation elevation, designing embankments, calculate the safety
factor stability of landfills and embankments, also, conducting design tests using a concrete
micropile at the fondation of the reclamation. The whole phase of analysis along with
reclamation planning will be modeled using PLAXIS 2D software and completed with
calculations.
Based on the calculation results, the design elevation of the top of the embankment is +4.31
meters from the lowest water level with an embankment slope of 18.4 °. As for concrete
micropile dimensions, a square cross-section size of 0.2 meters x 0.2 meters with a length of
9 meters is used. The configuration of the distance between the micropile columns used in
soil reinforcement at the underside of the embankment is 1 meter, whereas at the bottom of
the sandpile embankments is 2 meters with a square pattern. The soil reinforcement is also
combine by a layer of geogrid and geotextile woven to adding a safety factor value in order
that meets the minimal criteria for embankments and reclamation piles on soft soils in the
Jakarta Bay area. The results of the modeling analysis, the embankment design which is
equipped with soil reinforcement with a micropile, showed the soil stability has increased
within a load of embankments with a safety factor value of 1.3. In the process of land
subsidence that occurs due to embankment loads, land subsidence due to soil elastic
conditions is 0.3 meters, while land subsidence due to the primary soil consolidation process
is 1.11 meters. Based from the calculation, land subsidence due to primary consolidation,
takes approximately 61.5 years to reach 90% consolidation.
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