Analysis of Flow Changes in the SPAR Model (4VP)

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Nurhikma Nurhikma
Fuad Mahfud Assidiq

Abstract

Research on the flow around the SPAR model was carried out with the aim of finding out how much effect the flow has
on the SPAR structure used in offshore wind turbines. SPAR is a type of floating structure that can usually be used in
deep seas and is an effective and reliable structure in terms of construction. Spar has the advantage that the buoyancy
point (KB) is above the gravity point (KG), thus providing good stability. However, there are still obstacles to the use of
SPAR structures in the deep sea, especially when environmental conditions are extreme, where SPAR structures are not
able to reduce currents at a certain speed level. Then, this research aims to test the SPAR model with a four vertical
plate (4VP) configuration system which is then modeled using Computational Fluid Dynamics (CFD) based numerical
modeling which aims to investigate the flow around the SPAR in terms of flow velocity. Especially at certain flow
velocity levels, the velocity is chosen carefully at each level starting from: V1 = 0.611m/s, V2 = 6.114, V3 = 61.144, V4
= 611.438. The addition of vertical plates to the bottom construction of the SPAR has a role in dampening the flow and
also turbulent effects due to current impacts.

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How to Cite
Nurhikma, N., & Assidiq, F. M. (2024). Analysis of Flow Changes in the SPAR Model (4VP). Zona Laut Jurnal Inovasi Sains Dan Teknologi Kelautan, 5(1), 37–43. https://doi.org/10.62012/zl.v5i1.31624
Section
Offshore Building Technology and Engineering

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References

Assidiq, Fuad M., et. all., “Experimental Investigation on the Characteristics of Pitch Motion for a

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Kelautan, 20(2), 163-174, 2023.

Assidiq, Fuad M., et. al., “Influence of Vertical Plate on the Pitching Motion of a SPAR Wind

Floater in Waves”, CCORE 2022, SPESS, pp. 30-42, 2023.

Shafiee, Mahmood. 2022. “Failure analysis of spar buoy foating ofshore wind turbine systems”.

Innovative Infrastructure Solutions, 8-28.

Vernanda, Adytia Z, 2018, “Analisis Respons Dinamis Floating Offshore Wind Turbine Tipe Semi-Sub

Dengan Variasi Desain Wind Turbine 1,5MW, 2,5MW DAN 5 MW Untuk Perairan Natuna”, Institute

Teknologi Sepuluh November, Surabaya

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