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All Journal Jurnal Teknik Pengairan: Journal of Water Resources Engineering Jurnal Bimbingan Konseling FATAWA: Jurnal Pendidikan Agama Islam
Muhammad Bisri
Jurusan Teknik Mesin, Fakultas Teknik, Universitas Wahid Hasyim Jl. Menoreh Tengah X/22, Sampangan, Semarang 50236.
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Journal : Jurnal Teknik Pengairan: Journal of Water Resources Engineering

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ANALISIS PENGENDALIAN SEDIMENTASI MUARA SUNGAI BANJIR KANAL BARAT KOTA SEMARANG Wahyudi, Puguh; Bisri, Muhammad; Sisinggih, Dian
Jurnal Teknik Pengairan: Journal of Water Resources Engineering Vol 6, No 2 (2015)
Publisher : Fakultas Teknik, Universitas Brawijaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1369.123 KB)

Abstract

Abstrak: Muara Sungai Banjir Kanal Barat mempunyai morfologi melebar ke daerah hilirnya sehingga kecepatan aliran sungai kecil yang berpotensi menimbulkan sedimentasi di muara. Selain itu adanya pasang surut dari air laut yang mengakibatkan sedimen di muara tidak bisa terbawa arus sungai ke laut bahkan kembali ke muara sungai oleh adanya backwater. Berdasarkan perhitungan transpor sedimen sejajar pantai dengan menggunakan metode fluks energi diperoleh sedimen sejajar pantai sebesar 591.017,140 m3/thn, sedangkan untuk angkutan sedimen dari sungai menggunakan persamaan Engelund&Hansen sebesar 127.952,470 m3/th. Volume budget sedimen diperoleh sebesar 718.969,610 m3/th. Berdasarkan perbandingan prisma pasang surut dan angkutan sedimen total (budget sedimen) P/Mnetto didapatkan nilaiS = 6,320 berdasarkan nilai tersebut maka muara sungai Banjir Kanal Barat memiliki mulut sungai yang tidak stabil karena nilai S < 20 (Triatmodjo, 2012).Sistem penangan yang baik untuk mengatasi masalah sedimentasi di muara sungai Banjir Kanal Barat adalah  pengelolaan  mulut sungai yang selalu terbuka dengan membuat jetty panjang di kedua sisi muara dengan panjang 1080,45 meter di  sebelah kiri  dan 646,06 meter di sebelah kanan muara sungai.Kata Kunci : Muara sungai, Gelombang, Angkutan sedimen, Pantai, Jetty Abstract: The Western Flood Canal estuary has a widening morphology towards downstream areas, so that the velocity of small streams can create sedimentation in the estuary. In addition, there are also seawater tides that results in sediment in the river estuary not being carried to the sea, instead returning to the estuary due to the presence of backwater. Based on calculations of coastline sediment transport using the energy flux method, the coastline sediment transport is 591.017,140 m3/yr., while river sediment trasport is determined by the Engelund and Hansen equation to be 127952.470 m3/yr. The sediment budget volume is         718.969,610 m3/yr. Based on the comparison between prism tides and total sediment transport (sediment budget) P/Mnetto, a value of S = 6,320 was obtained. Based on these values, the Western Flood Canal estuary has an unstable river mouth because S < 20 (Triatmodjo, 2012). A good handling system to overcome the problem of sedimentation in the Western Flood Canal estuary is the management of an always-open river mouth by the creation of a long jetty on both sides of the estuary with a length of 1080,45 meters on the left and 646,06 meters on the right.Keywords: estuary of river, wave, sediment transport, shore, Jetty
Optimization Utilization Study Storage of Raknamo Dam Amabi Oefeto District Kupang Region Bale, Frits Jeferson; Bisri, Muhammad; Wahyuni, Sri
Jurnal Teknik Pengairan: Journal of Water Resources Engineering Vol. 14 No. 2 (2023)
Publisher : Fakultas Teknik, Universitas Brawijaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21776/ub.pengairan.2023.014.02.4

Abstract

Raknamo Irrigation area (1323 ha) has problems with water availability, especially during the dry season, which causes a decrease in the productivity of the agricultural products from local communities. This is due to the suboptimal water distribution system in the Raknamo Reservoir. This study aims to analyze and optimize water distribution in the Raknamo Reservoir to obtain the most optimal water distribution to fulfill agricultural land's water needs in various seasons. Optimization analysis is carried out using a deterministic dynamic program. With this program, a complex and large-scale problem can be dispart into several small parts (decomposition), which are then optimized. Based on the analysis results, the maximum profit that can be obtained from the cropping intensity is 16% in the normal season. Meanwhile, the highest increase of the land area is 218.64 ha. It is worth noting that this study uses a deterministic dynamic program for optimization analysis to dispose of the complex problem into smaller, manageable parts. This approach facilitates a more systematic and comprehensive analysis and provides a framework for future decision-making processes related to water management and agricultural planning. The study's methodology and findings can serve as a valuable reference for similar water-related challenges in other irrigation areas, thereby contributing to the broader agricultural research and sustainable water resource management field.
Co-Authors Bale, Frits Jeferson Dian Sisinggih Edy Purwanto Imam Bahrozi Muhammad Japar Puguh Wahyudi, Puguh Sri Wahyuni Zahrotul Azkiya' Azizah