SLOPE STABILITY ANALYSIS AT PT XYZ COAL MINING DISPOSAL IN SOUTH KALIMANTAN PROVINCE
PT XYZ is a mining company that carries out coal mining activities in South Kalimantan Province now days it’s disposal is facing slope failure which occurred at RL+90 to RL+30 on the northern side of disposal. In order to find out the cause of the failure, a back analysis was carried out by condu...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/57476 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | PT XYZ is a mining company that carries out coal mining activities in South
Kalimantan Province now days it’s disposal is facing slope failure which occurred
at RL+90 to RL+30 on the northern side of disposal. In order to find out the cause
of the failure, a back analysis was carried out by conducting slope modeling using
field data and Rockscience slide v6.0 software.
The results of the back analysis showed that the factors causing the slope failure of
PT XYZ's disposal slope were the saturated disposed material condition and the
disposed material strength of 85% with a cohesion value of 60.80 kPa. As well as,
the presence of weak material on the disposal foundation which triggers the
occurrence of non-circular slope failure in the disposal.
By using the results of the back analysis, the slope stability analysis applied to the
planned disposal show that the design of the disposal slope in unstable conditions
with a circular and non-circular failure safety factor value of 0.942 and 0.933,
respectively, with probability of failure 67,6% and 73,2%, respectively. In order to
meet the slope safety criteria in the Keputusan Menteri ESDM No.
1827/K/MEM/2018, some recommendation of remedial action for the planned
disposal are made. By applying the recommendations given, generated value the
static safety factor for the potential circular failure and non-circular failure will
be 1,299 and 1,325 with a probability of failure 0,4% and 0%. And the dynamic
safety factor for the potential circular failure and non-circular failure will be 1,202
and 1,231 with a probability of failure 4,2% and 0,4%. |
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