STUDY OF THE POTENTIAL OF TIN HYPERACCUMULATOR PLANTS IN BAJI HILL, PAKU AREA, SOUTH BANGKA REGENCY
One of the mining areas which produces gold in Indonesia is IUP OP Pongkor which is located in Pongkor Regency, developed by PT ANTAM Tbk. An underground mining method is used in this mining area. There are many problems found during construction project of tunnel due to discontinuities, litholog...
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| Format: | Final Project |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/73831 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | One of the mining areas which produces gold in Indonesia is IUP OP Pongkor
which is located in Pongkor Regency, developed by PT ANTAM Tbk. An
underground mining method is used in this mining area. There are many problems
found during construction project of tunnel due to discontinuities, lithologic
heterogeneity, groundwater condition, and weathering processes. The research
area is located at Kubang Cicau Prospect, precisely in 106° 33' 33" - 106° 33' 43"
S dan 6° 40' 18" - 6° 40' 31" E. The object of this research is located in tunnel drift
of KK445, KK460, and KK460C. This research was conducted by using rock mass
classification methods and finite element method. Rock mass classification method
is used to determine the appropriate support system in this tunnel and finite element
method is used to evaluate the safety factor (SF) parameter and support capacity.
Based on field observation, lithology of KK445, KK460, and KK460C mainly
consist of lapilli tuff. Based on the RMR value, KK445 and KK460 are classified as
rock mass class III-IV (fair-poor) while KK460C is classified as rock mass class IV
(poor). Based on Q-System rock mass classification, KK445 and KK460 are
classified as poor rock mass while KK460C is classified as very poor rock mass.
The value of RMR parameters can be used to deterimine the potential failure mode
and shows that KK445 and KK460 have wedge failure mode while KK460 has rock
mass failure mode. Based on the RMR classification, the support system of rock
bolt, wiremesh, and H-Beam are required. Based on the Q-System classification,
reinforced shotcrete and rockbolt are required. Numerical analysis is used to
evaluate the performance of support design resulting that rock support design
based on RMR classification can accommodate the weight of failure well with SF
value more than 1.5 and shows that no failure points found. Meanwhile, the support
design based on Q-System rock mass classification can not accommodate the
weight of failure well with SF value less than 1.5 and shows that there are failure
points found. According to conducted evaluation, the RMR classification is more
appropriate to determine support design. |
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