DESAIN POLA OPERASI PELABUHAN JAKARTA INTERNATIONAL CONTAINER TERMINAL, TANJUNG PRIOK, JAKARTA UTARA
Jakarta International Container Terminal is a port located in Tanjung Priok, North Jakarta. Indonesia is bypassed by the Sea Lane of Communication (SLOC), the Malacca Strait, where this route ranks first in the container shipping lane, which makes Tanjung Priok ranked 26th out of 47 ports in the...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/43103 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Jakarta International Container Terminal is a port located in Tanjung Priok, North
Jakarta. Indonesia is bypassed by the Sea Lane of Communication (SLOC), the Malacca Strait, where
this route ranks first in the container shipping lane, which makes Tanjung Priok ranked 26th out of
47 ports in the world container shipping lane. This makes Tanjung Priok Port the busiest and most
populous port in all of Indonesia. In this regard, the Jakarta International Terminal is targeting to
increase the capacity of the pier to ± 2 million TEUs / year and the stacking field capacity to ± 3
million TEUs / year. The scope of the design of the pier operating patterns includes the design of a
combination of berths at the pier, determination of the type and number of container loading and
unloading equipment, calculation of productivity of loading and unloading equipment, and
calculation of dock capacity while for designing the operating patterns in the stacking field including
determining the orientation of the container stacking , determination of the type and number of
stacking field set, stacking field productivity calculation, and stacking field capacity calculation. The
designed container dock terminal is 2,404,904 TEU / year. Designing patterns of operation in the
buildup field container stacking, determining the type and number of tools in the stacking field,
calculating the productivity of the equipment in the stacking field, and calculating the capacity of the
stacking field. The designed container stacking terminal capacity is 3,461,612 TEU / year. In addition
there is a determination of horizontal transportation equipment requirements which includes
determining the type and number of horizontal transportation equipment as well as calculation of
capital costs and determination of container handling costs including calculation of total capital
costs, calculation of total expenditure and income per year during the payback period, and
determination of container handling costs
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