Analysis Of The Placement And Needs Of General Cargo Ship Tanks With DWT 3650 Tons
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Abstract
The double bottom can enhance the ship's safety and a ballast tank. If the ship crashes into a rock and the outer bottom plate is torn, the watertight top tank will limit/protect the cargo from damage caused by water. The tank is a cargo storage container and is the central part of the liquid and gas transport vessel so that the cargo is maintained and safe. As a storage medium, the tank will always get a load from inside or outside the tank—calculating tank requirements using Simpson's approach. From the calculation results obtained fuel tank obtained 68,354 m3, and the diesel oil tank obtained 14,758 m3. The lubricating oil tank obtained 17,566 m3. The freshwater tank obtained 72,815 m3, and the Ballast tank obtained 356,098 m3.
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References
. Zhang, S. A review and study on ultimate strength of steel plates and stiffened panels in axial compression. Ships Offshore Struct. 2015, 11, 1–11. [CrossRef]
. Kim, D.K.; Lim, H.L.; Yu, S.Y. A technical review on ultimate strength prediction of stiffened panels in axial compression. Ocean Eng. 2018, 170, 392–406. [CrossRef]
. Kim, D.K.; Lim, H.L.; Yu, S.Y. Ultimate strength prediction of T-bar stiffened panel under longitudinal compression by data processing: A refined empirical formulation. Ocean Eng. 2019, 192, 106522. [CrossRef]
. H. Palippui, “Analysis Of The Installation Of Subsea Pipelines To Support The Need For Clean Water In Supporting Tourism Development On Kayangan Island”, MaritimePark, vol. 1, no. 1, pp. 9-18, Feb. 2022.
. Kim, D.K.; Yu, S.Y.; Lim, H.L.; Cho, N.-K. Ultimate Compressive Strength of Stiffened Panel: An Empirical Formulation for Flat-Bar Type. J. Mar. Sci. Eng. 2020, 8, 605. [CrossRef]
. H. Palippui and T. Pairunan,” Ship building design of general cargo vessel using comparator ship method in port route of Jakarta-Makassar-Manokwari” IOP Conf. Ser.: Earth Environ. Sci. 921 012035.2021
H. Palippui dan S. Ramadhan, “Analisa Kekuatan Struktur Barge Pada Proses Load Out Offshore Module (Top Side) dengan SPMT”, zonalaut, vol. 1, no. 1, hlm. 1-5, Mar 2020.
A. P. Utomo, S. D. Utami, R. A. Setyawan, dan A. A. Setiawan, “HEXAMUF Interior Design Sebagai Solusi Keterbatasan Ruang Pada Kapal General Cargo”, zonalaut, vol. 1, no. 1, hlm. 11-15, Mar 2020.
Lin, Y.T. Ship Longitudinal Strength Modeling. Ph.D. Thesis, Department of Naval Architecture and Ocean Engineering, University of Glasgow, Glasgow, Scotland, 1985.of Denmark Lyngby, 1992. [7] N. (1987), “NORDFORSK (1987) -Seakeeping Criteria,” p. 1987, 1987.
[ R. . Japri, “Design of Profile Construction on General Cargo Ships Using the Ship Comparative Method”, zonalaut, vol. 2, no. 2, pp. 65-73, Jul. 2021.
Indonesian Classification Bureau, 2016, Rules for Hull Construction, volume II, Jakarta