Tauviqirrahman M, Sugiyanto , Ma’nun K, Jamari , Muchammad , Paryanto (2022)
Publication Type: Journal article
Publication year: 2022
Book Volume: 17
Pages Range: 1520-1526
Journal Issue: 16
Around the world, there has been an increasing tendency toward the use of artificial reefs (ARs) to enhance recreational opportunities and offer coastal protection. The placement of artificial reefs (ARs) on the seafloor in a variety of configurations results in a range of flow characteristics. The first parameters that contribute to the best hydrodynamic qualities in terms of the ARs layout remain unknown. The present work conducts numerical research on the hydrodynamics of ARs with three rows, with a particular emphasis on how to enhance the complicated wake region when the spacing between the reefs varies. The tube artificial reef system with zig-zag formation is investigated using a complete three-dimensional computational fluid dynamics (3D CFD) technique using the renormalization group (RNG) k-εturbulent model. Through several numerical simulations, it is found that the configuration of the reef groups with spacing between tubes of 1.5 D has the greatest effect on the wake region. Additionally, to minimize beach erosion, the ARs should be deployed 10 meters from the shoreline. This study establishes a scientific basis for the arrangement of artificial reefs and their relationship to the shoreline.
APA:
Tauviqirrahman, M., Sugiyanto, ., Ma’nun, K., Jamari, ., Muchammad, ., & Paryanto, . (2022). NUMERICAL SIMULATION OF EFFECT OF ARTIFICIAL REEF ARRANGEMENTS ON WAKE REGION CHARACTERISTIC AROUND THE COMBINED TUBE REEF WITH ZIG-ZAG FORMATION. Journal of Engineering and Applied Sciences, 17(16), 1520-1526.
MLA:
Tauviqirrahman, Mohammad, et al. "NUMERICAL SIMULATION OF EFFECT OF ARTIFICIAL REEF ARRANGEMENTS ON WAKE REGION CHARACTERISTIC AROUND THE COMBINED TUBE REEF WITH ZIG-ZAG FORMATION." Journal of Engineering and Applied Sciences 17.16 (2022): 1520-1526.
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