TOTAL RESISTANCE PREDICTION OF SELF PROPELLED COAL BARGE (SPCB) USING COMPUTATIONAL FLUID DYNAMIC

Agung Purwana; Adi Wirawan Husodo

doi:10.12777/kpl.12.2.97-105

Kapal (Jun 2015)

TOTAL RESISTANCE PREDICTION OF SELF PROPELLED COAL BARGE (SPCB) USING COMPUTATIONAL FLUID DYNAMIC

Agung Purwana,
Adi Wirawan Husodo

Affiliations

Agung Purwana: Marine Engineering Department, Politeknik Perkapalan Negeri Surabaya,
Adi Wirawan Husodo: Marine Engineering Department, Politeknik Perkapalan Negeri Surabaya,

DOI: https://doi.org/10.12777/kpl.12.2.97-105
Journal volume & issue: Vol. 12, no. 2
pp. 97 – 105

Abstract

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In the present paper the computational fluid dynamic (CFD) technique is applied to predict the total resistance (Rt) of Self Propelled Coal Barge (SPCB). The simulation process was executed using ANSYS®software based on fluid flow (CFX) solver. The selected CFD method is volume of fluid (VOF). The solid modeling of SPCB is developed using Maxsurf®. Boundary conditions are set on each domain area covering bottom,free surface, inlet, outlet, shipand wall. The variation of computaitional grid (meshing grid) which is used in computation are SST (Shear Stress Transport)67,000, SST 73,000, SST 103,000, SST 117,000, SST 127,000, SST 147,000, SST 157,000, and SST 200,500. Total resistance (Rt) resulted from CFX computation is validated with total resistance (Rt) resulted from Holtrop. The larger of grid meshing size, the better of validation result. The CFD technique demonstrated good agreement with Holtrop formulae in predicting the total resistance (Rt) of SPCB.

CFD, total resistance, meshing grid, shear stress transport, volume of fluid (VOF)

Published in Kapal

ISSN: 1829-8370 (Print); 2301-9069 (Online)
Publisher: Department of Naval Architecture, Faculty Engineering, Diponegoro University
Country of publisher: Indonesia
LCC subjects: Naval Science
Website: https://ejournal.undip.ac.id/index.php/kapal/index

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