Prasetya, Nova Cahya (2025) Kajian Alternatif Bangunan Spillway Dengan Tipe Pelengkung Pada Bendungan Sidan Di Kabupaten Badung,Bangli, Dan Gianyar. Other thesis, Institut Teknologi Sepuluh Nopember.
![[thumbnail of 2036201059-Undergraduate_Thesis.pdf]](http://repository.its.ac.id/style/images/fileicons/text.png) |
Text
2036201059-Undergraduate_Thesis.pdf - Accepted Version Restricted to Repository staff only until 1 April 2027. Download (7MB) | Request a copy |
Abstract
Bendungan Sidan merupakan bendungan tipe zonal dengan Inti Tegak (Inti Aspal) memiliki panjang puncak 185 meter serta lebar puncak 8,5 meter yang sumber airnya berasal dari Sungai Ayung. Bendungan berkapasitas tampung 3,82 juta meter kubik tersebut merupakan bangunan pengendali banjir dengan menggunakan pelimpah tipe labirin. Pelimpah labirin ini memang memiliki keunggulan yaitu kapasitas reduksinya lebih besar jika dibandingkan tipe lainnya. Pada penelitian ini dilakukan analisis dan kajian alternatif dengan 2 model yaitu tipe original labirin dan pelengkung. Dari kedua model ini akan dilakukan analisis sifat hidrolis dan muka airnya. Analisis hidrolika pada original desain dan alternatif desain meliputi saluran pengarah, saluran samping, saluran transisi, saluran peluncur terbuka, saluran peluncur dengan terowong model tapal kuda, sky jump, peredam energi, dan gerusan di hilir pelimpah. Berdasarkan hasil dari analisis hidrolika pada original desain dan alternatif desain,telah sesuai dengan kriteria desain yang meliputi saluran samping (Froude number < 0,44 dan slope saluran < 0,08), saluran transisi (froude number = 1, sudut transisi < 12,5˚ dan aman dari aliran silang), saluran peluncur terbuka (Froude number 1 < Fr <9, tidak terjadi kavitasi, tidak terjadi kavitasi dan aman terhadap aliran getar). Saluran peluncur terowong (Froude number > 1, tidak terjadi kavitasi dan aman terhadap aliran getar), jarak loncatan air terjauh tidak melewati panjang plung pool, peredam dengan tipe solid bucket memiliki Fr>4,5 sebelum lompatan, dan dapat meredam energi serta tidak terjadi gerusan lokal dengan penambahan riprap. Dari hasil penelitian tipe pelengkung ini tidak disarankan karena dari hasil analisis lebih bagus desain gergaji daripada desain alternatif pelengkung karena desain labirin dapat mengurangi ekskavasi tanah serta jika menggunakan desain pelengkung menyebabkan penurunan peredaman energi di hilir sebesar 15,3%.
===================================================================================================================================
The Sidan Dam is a zonal dam with a Vertical Core (Asphalt Core), featuring a crest length of 185 meters and a crest width of 8.5 meters, with its water source coming from the
Ayung River. The dam has a storage capacity of 3.82 million cubic meters and serves as a flood control structure utilizing a labyrinth spillway. The labyrinth spillway has the advantage of a larger reduction capacity compared to other types. This study involves an analysis and alternative evaluation with two models: the original labyrinth type and an arch type. Hydraulic and water surface property analyses will be conducted for both models. The hydraulic analysis for both the original and alternative designs includes the intake channel, side channel, transition channel, open chute, chute with a horseshoe-shaped tunnel model, sky jump, energy dissipation, and scour downstream of the spillway. Based on the hydraulic analysis results for both the original and alternative designs, the criteria are met, including side channels (Froude number < 0.44 and channel slope < 0.08), transition channels (Froude number = 1, transition angle < 12.5˚, and safe from cross flow), open chutes (1 < Fr < 9, no cavitation, and safe from vibration flow), tunnel chutes (Froude number > 1, no cavitation, and safe from vibration flow), with the maximum jump distance not exceeding the length of the plunge pool, and an energy dissipater of the solid bucket type achieving Fr > 4,5 before the jump and able to dissipate energy with no local scour observed with the addition of riprap. From the results of this curved type research, it is not recommended because from the results of the analysis, the saw design is better than the alternative curved design because the labyrinth design can reduce soil excavation as well as if using a curved design leads to a decrease in downstream energy attenuation by 15.3%.
| Item Type: | Thesis (Other) |
|---|---|
| Uncontrolled Keywords: | Sidan Dam, Labyrinth Spillway, Arch Type, Bendungan Sidan, Labyrinth Spillway, Arch Type. |
| Subjects: | T Technology > TC Hydraulic engineering. Ocean engineering > TC424 Water levels T Technology > TC Hydraulic engineering. Ocean engineering > TC555 Spillways. Energy dissipation. Hydraulic jump. |
| Divisions: | Faculty of Vocational > Civil Infrastructure Engineering (D4) |
| Depositing User: | Nova Cahya Prasetya |
| Date Deposited: | 07 Feb 2025 06:47 |
| Last Modified: | 07 Feb 2025 06:47 |
| URI: | http://repository.its.ac.id/id/eprint/118549 |
Actions (login required)
 |
View Item |