Syahlan, Ersal Kusuma (2022) Pemodelan Numerik Hidrodinamika Lapis Pelindung Tipe A-Jack Pada Seawall. Other thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Salah satu cara mengantisipasi ancaman wilayah pesisir adalah dengan pembuatan seawall. Sebelum dilakukan pembangunan seawall, harus dilakukan analisa struktur secara eksperimen maupun pemodelan secara numerik. Pada penelitian ini dilakukan pemodelan numerik seawall dengan lapis lindung tipe A-Jack dengan membuat Numerical Wave Tank (NWT) 3D menggunakan software berbasis SPH (Smoothed Particle Hydrodynamic), DualSPHysics 5.0 untuk mendapatkan tinggi runup, volume overtopping, dan refleksi gelombang akibat pengaruh dari parameter gelombang dan sudut kemiringan struktur. Peletakan dari unit lapis lindung A-Jack sendiri dibuat acak dan hasilnya divalidasi dengan uji eksperimen yang dilakukan di Laboratorium Flume Tank Teknik Kelautan ITS dengan variasi kemiringan struktur 1:1, 1:1.5, dan 1:2. Dari penelitian ini didapat bahwa untuk koefisien refleksi, pengaruh kecuramanan gelombang (wave steepness) dan tinggi gelombang adalah semakin meningkat kecuraman gelombang dan tinggi gelombang, maka nilai koefisien refleksi (KR) semakin berkurang, sedangkan pengaruh kemiringan struktur adalah semakin curam kemiringan struktur maka nilai koefisien refleksi semakin besar. Untuk runup gelombang, pengaruh tinggi gelombang adalah semakin tinggi gelombang maka akan semakin besar runup gelombang yang terjadi, sedangkan pengaruh kecuraman gelombang adalah semakin tinggi nilai kemiringan gelombang maka nilai runup semakin menurun, dan pengaruh kemiringan struktur adalah semakin curam kemiringan struktur maka runup gelombang yang terjadi semakin bertambah. Untuk volume overtopping, pengaruh ketinggian dan periode gelombang adalah semakin besar tinggi dan periode gelombang maka semakin besar juga volume overtopping yang terjadi, dan untuk pengaruh kemiringan struktur adalah semakin curam kemiringan struktur maka volume overtopping yang terjadi semakin kecil.
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One of the solution to anticipate the threat of coastal areas is build a seawall structure. Before the construction of seawall, experimental analysis and numerical modeling must be carried out. In this study, numerical modeling of seawall with A-Jack type armour unit was carried out by making a 3D Numerical Wave Tank (NWT) using SPH (Smoothed Particle Hydrodynamics) based software, DualSPHysics 5.0 to obtain runup height, overtopping volume, and wave reflection due to the impact of wave parameters and the angle of inclination of the structure. The placement of the A-Jack armour unit layer itself was randomly generated and the results were validated by experimental test at the Flume Tank Laboratory of Ocean Engineering, FTK, ITS with variations in structural slopes of 1: 1, 1.1.5, and 1: 2. From this study it was found that wave steepness affect the reflection coefficient, as the wave steepness increased, the wave coefficient value (KR) also increases, the impact of wave height is similar to the effect of wave steepness to reflection coefficients. And for the effect of the slope of the structure is the steeper the slope will make the reflection coefficient greater. For the wave runup, the effect of wave height is the higher the wave, the greater the wave runup that occurs, while for the effect of wave steepness is the higher the wave steepness value, will decrease the wave runup, and for the effect of the slope of the structure is the steeper the slope, the wave runup that occurs is increasing. And for the overtopping volume, the effect of the height and wave period is that the greater the wave period and height, the greater the volume of overtopping that occurs, and for the effect of the slope of the structure is the steeper the slope, will decrease the volume of overtopping that occurs.
| Item Type: | Thesis (Other) |
|---|---|
| Additional Information: | RSKe 627.58 Sya p-1 2022 |
| Uncontrolled Keywords: | DualSPHysics, overtopping volume, reflection, seawall, wave runup, refleksi, runup gelombang |
| Subjects: | H Social Sciences > HE Transportation and Communications > HE566.T3 Tankers V Naval Science > VM Naval architecture. Shipbuilding. Marine engineering > VM161 Ships--Hydrodynamics |
| Divisions: | Faculty of Marine Technology (MARTECH) > Ocean Engineering > 38201-(S1) Undergraduate Thesis |
| Depositing User: | Anis Wulandari |
| Date Deposited: | 05 Dec 2024 02:25 |
| Last Modified: | 05 Dec 2024 02:25 |
| URI: | http://repository.its.ac.id/id/eprint/115905 |
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