Analysis of Rounded Interceptor Effects on Ship Resistance of High-Speed Planing Vessel using Computational Fluid Dynamics

Authors

  • Samuel Department of Naval Architecture, Faculty of Engineering, Diponegoro University, 50275 Semarang, Indonesia
  • Alfin Firmansyah Department of Naval Architecture, Faculty of Engineering, Diponegoro University, 50275 Semarang, Indonesia
  • Serliana Yulianti Department of Naval Architecture and Marine Systems Engineering, Faculty of Engineering, Pukyong National University, 48567 Busan, South Korea
  • Dian Purnama Sari National Research and Innovation Agency, 60112 Surabaya, Indonesia
  • Nandiko Rizal National Research and Innovation Agency, 60112 Surabaya, Indonesia
  • Muryadin National Research and Innovation Agency, 60112 Surabaya, Indonesia
  • Fariz Maulana Noor National Research and Innovation Agency, 60112 Surabaya, Indonesia
  • Putri Virliani National Research and Innovation Agency, 60112 Surabaya, Indonesia
  • Rio Dwi Sakti Wijaya National Research and Innovation Agency, 60112 Surabaya, Indonesia
  • Dimas Fajar Prasetyo National Research and Innovation Agency, 60112 Surabaya, Indonesia
  • Sandi Ramadika Department of Electronics Engineering, Faculty of Engineering, Universitas Negeri Padang, 25171 Padang, Sumatera Barat, Indonesia

DOI:

https://doi.org/10.37934/arfmts.126.2.112

Keywords:

Rounded interceptor, planing vessel, ship resistance

Abstract

The primary objective of the interceptor is to control the trim of the vessel, thereby enhancing fuel efficiency and stability. However, at high speeds, the interceptor induces adverse effects. This research aims to mitigate these negative impacts by modifying the geometric configuration of the interceptor. The shape modifications of the rounded interceptor evaluated through numerical simulations include radii of R10.00, R12.50, and R15.00. This study aims to contribute to an enhanced understanding of the effects on drag, heave, and trim performance of the planing hull vessel. The methodology employs a Computational Fluid Dynamics (CFD) approach using Reynolds-Averaged Navier-Stokes (RANS) equations. The simulation verification was conducted regarding prior experimental studies, and the simulation procedures adhered to the guidelines set by the International Towing Tank Conference (ITTC). The interceptor's height is a key factor in reducing trim, heave, and consequently, drag. The modified rounded interceptor effectively reduces drag at high speeds.

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Author Biographies

Samuel, Department of Naval Architecture, Faculty of Engineering, Diponegoro University, 50275 Semarang, Indonesia

samuel@ft.undip.ac.id

Alfin Firmansyah, Department of Naval Architecture, Faculty of Engineering, Diponegoro University, 50275 Semarang, Indonesia

alfinfirmansyah23@alumni.undip.ac.id

Serliana Yulianti, Department of Naval Architecture and Marine Systems Engineering, Faculty of Engineering, Pukyong National University, 48567 Busan, South Korea

serliana01@pukyong.ac.kr

Dian Purnama Sari, National Research and Innovation Agency, 60112 Surabaya, Indonesia

dian010@brin.go.id

Nandiko Rizal, National Research and Innovation Agency, 60112 Surabaya, Indonesia

nand006@brin.go.id

Muryadin, National Research and Innovation Agency, 60112 Surabaya, Indonesia

mury001@brin.go.id

Fariz Maulana Noor, National Research and Innovation Agency, 60112 Surabaya, Indonesia

fariz.maulana@bppt.go.id

Putri Virliani, National Research and Innovation Agency, 60112 Surabaya, Indonesia

putr003@brin.go.id

Rio Dwi Sakti Wijaya, National Research and Innovation Agency, 60112 Surabaya, Indonesia

riod001@brin.go.id

Dimas Fajar Prasetyo, National Research and Innovation Agency, 60112 Surabaya, Indonesia

dima023@brin.go.id

Sandi Ramadika, Department of Electronics Engineering, Faculty of Engineering, Universitas Negeri Padang, 25171 Padang, Sumatera Barat, Indonesia

sandi@ft.unp.ac.id

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Published

2025-01-20

How to Cite

Samuel, S., Firmansyah, A., Yulianti, S., Purnama Sari, D., Rizal, N. ., Muryadin, M., … Ramadika, S. . (2025). Analysis of Rounded Interceptor Effects on Ship Resistance of High-Speed Planing Vessel using Computational Fluid Dynamics. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 126(2), 1–12. https://doi.org/10.37934/arfmts.126.2.112

Issue

Vol. 126 No. 2: February (2025)

Section

Articles
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Europe PMC

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