Fauziyah, Lana (2023) Pemilihan Tipe Saluran Pelimpah (Spillway) Pada Bendungan Bagong Trenggalek. Other thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Sungai Bagong merupakan salah satu Sub-DAS Ngerowo-Ngasinan yang terletak di DAS Brantas. Sungai Bagong melintasi kecamatan Bendungan dan memiliki luas DAS sebesar 85,49 km2 dengan panjang sungai mencapai 20,44 km. Bendungan Bagong memiliki luas Daerah Tampungan Air (DTA) 39,95 km2 serta kemampuan mereduksi banjir yang dimiliki sebesar 18% dari inflow. Selain itu, Bendungan Bagong memiliki tampungan waduk sebesar 17,4 x 106 m3. Pelimpah adalah bangunan penting dalam bendungan, berfungsi untuk mengalirkan kelebihan air dari hulu ke hilir bendungan dan menjaga ketinggian air tetap dalam batas aman. Penelitian ini mengambil topik pemilihan tipe saluran pelimpah dengan 2 tipe yaitu overflow spillway dan side channel spillway. Metode yang digunakan dalam penelitian ini adalah analisis hidrologi, analysis hidrolis dan stabilitas bangunan pelimpah. Berdasarkan hasil analisis pada perhitungan Hidrolis dan Stabilitas, didapatkan hasil pemilihan tipe saluran pelimpah yang tepat pada Bendungan Bagong adalah Tipe Overflow Spillway lebar pelimpah 30 m dengan puncak pelimpah pada elevasi +325,00 serta tinggi maindam pada elevasi +330,00. hasil penelusuran banjir didapatkan debit keluaran (outflow) Q1000Th = 210,350 m3/dt pada elevasi +326,968 dengan tinggi muka air 1,97 m, dan QPMF = 410,381 m3/dt pada elevasi +328,084 dengan tinggi muka air 3,08 m. Hasil analisis hidrolis tipe overflow spillway pada saluran pengarah dan pelimpah didapat kecepatan aliran tertinggi sebesar 18,1 m/dt dengan nilai Fr 6,6 < 9 (Super Kritis), sedangkan untuk saluran peluncur Kecepatan aliran tertinggi terdapat pada peluncur 3 pada kala ulang QPMF sebesar 18,1 m/dt dengan nilai Fr 6,3 (Super Kritis). Dari hasil perhitungan pada kolam olak dengan kala ulang Q1000 terjadi loncatan air sepanjang 9,640 m dengan jenis loncatan tetap, sedangkan untuk QPMF terjadi loncatan air sepanjang 17,109 m dengan jenis loncatan tetap. Berdasarkan analisis stabilitas terhadap rembesan, geser dan guling menunjukkan hasil yang memenuhi persyaratan.
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The Bagong River is one of the Ngerowo-Ngasinan Sub-watersheds located in the Brantas watershed. The Bagong River crosses the Bendungan sub-district and has a watershed area of 85.49 km2 with a river length of 20.44 km. Bagong Dam has an area of 39.95 km2 of water storage area (DTA) and its flood reduction capability is 18% of inflow. In addition, Bagong Dam has a reservoir storage of 17.4 x 106 m3. The spillway is an important building in the dam, functioning to drain excess water from upstream to downstream of the dam and keep the water level within safe limits. This research takes the topic of selecting the type of spillway channel with 2 types, namely overflow spillway and side channel spillway. The methods used in this research are hydrological analysis, hydraulic analysis and spillway building stability. Based on the results of the analysis on Hydraulic and Stability calculations, the results of the selection of the right type of spillway channel at Bagong Dam are the Overflow Spillway Type with a spillway width of 30 m with a spillway peak at elevation +325.00 and maindam height at elevation +330.00. The results of flood tracking obtained outflow discharge Q1000Th = 210,350 m3 / s at elevation +326,968 with a water level of 1.97 m, and QPMF = 410,381 m3 / s at elevation +328,084 with a water level of 3.08m. The results of the hydraulic analysis of the overflow spillway type in the directional channel and spillway obtained the highest flow velocity of 18.1 m/s with a water level of 3.08 m.
| Item Type: | Thesis (Other) |
|---|---|
| Uncontrolled Keywords: | Dam, Spillway, Overflow Spillway, Side Channel, Selection, Type, Pemilihan, Tipe |
| Subjects: | T Technology > TC Hydraulic engineering. Ocean engineering > TC167 Dams, reservoirs T Technology > TC Hydraulic engineering. Ocean engineering > TC424 Water levels T Technology > TC Hydraulic engineering. Ocean engineering > TC530 Flood control T Technology > TC Hydraulic engineering. Ocean engineering > TC555 Spillways. Energy dissipation. Hydraulic jump. |
| Divisions: | Faculty of Vocational > Civil Infrastructure Engineering (D4) |
| Depositing User: | Lana Fauziyah |
| Date Deposited: | 04 Oct 2023 09:15 |
| Last Modified: | 04 Oct 2023 09:15 |
| URI: | http://repository.its.ac.id/id/eprint/103899 |
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