OPERATION SYSTEM DESIGN OF LIQUID BULK TERMINAL, PORT OF BENOA, DENPASAR CITY, BALI PROVINCE
Port of Benoa is one of the vital transportation infrastructures for Bali Province. With the establishment of Benoa Port as the Bali Maritime Tourism Hub (BMTH), Port of Benoa needs to develop facilities and infrastructure to support the program. One of the things that needs to be developed to su...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/80534 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Port of Benoa is one of the vital transportation infrastructures for Bali Province.
With the establishment of Benoa Port as the Bali Maritime Tourism Hub (BMTH), Port of
Benoa needs to develop facilities and infrastructure to support the program. One of the things
that needs to be developed to support the development of Benoa Port as the Bali Maritime
Tourism Hub (BMTH) is the fulfillment of energy in the form of fuel oil for Denpasar City in
particular. In addition to meeting the needs of the program, the development of a Fuel Oil
Terminal at Benoa Port is also needed to become a gateway to meet the increasing fuel oil
needs of Denpasar residents. Therefore, to be able to facilitate the logistics flow of fuel
commodities to meet the needs, this Final Project will discuss the Operation System Design of Liquid Bulk Terminal, Port of Benoa, Denpasar City, Bali Province. The discussion in this
Final Project includes the design of operating patterns at the dock, design of operating patterns
in the stacking field, calculation of capital costs, and determination of fuel oil cargo handling
rates. The design of the operation pattern at the dock includes mooring analysis, planning the
type and number of fuel cargo handling tools at the dock, determining the productivity of these
tools, calculating the duration of loading and unloading fuel cargo, and calculating the
capacity of the dock. The results of the calculation of the design handling capacity at the pier
obtained are 7,216,363 m3/year. The design of the operation pattern in the stacking field
includes the design of the tank farm area, determination of the type and number of fuel cargo
handling equipment in the field, and calculation of the stacking field capacity. The result of the
design handling capacity calculation in the stacking field is 8,488,440 m3/year. The calculation
of costs and determination of fuel cargo handling rates includes the calculation of total capital
costs, the calculation of total expenses and income per year during the payback period, and
the calculation of fuel cargo handling rates based on terminal capacity utilization conditions.
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