Perencanaan Alternatif Perkuatan Lereng Di Tepian Sungai Segah Pada Jalan Bujangga, Berau, Kalimantan Timur

Pitaloka, Yasmin Dyah (2025) Perencanaan Alternatif Perkuatan Lereng Di Tepian Sungai Segah Pada Jalan Bujangga, Berau, Kalimantan Timur. Other thesis, Institut Teknologi Sepuluh Nopember.

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Abstract

Kota Tanjung Redeb diapit oleh dua sungai, yakni Sungai Segah dan Sungai Kelay. Posisi Kota Tanjung Redeb yang berdekatan dengan sungai akan memengaruhi konstruksi jalan yang dibangun di tepian sungai sehingga dapat mengakibatkan terjadinya kelongsoran. Penyebab dari peristiwa kelongsoran di tepian sungai Segah, yakni adanya hujan yang cukup deras sehingga muncul adanya tanda retakan pada jalan dan biasanya terjadi tepat berada pada area belokan sungai sehingga badan jalan di dekat tepian sungai sehingga rawan terhadap gerusan. Di sisi lain, Pemerintah Kabupaten Berau berencana untuk mengubah kawasan tepian Sungai Segah menjadi kawasan yang menarik dan bersih dengan membangun taman kota pada ruas lain di Jalan Bujangga. Area perencanaan taman kota direncanakan tepatnya di area belokan Sungai Segah sehingga perlu diberikan perkuatan agar tidak terjadi kelongsoran pada badan jalan. Dalam pembangunan kawasan tersebut direncanakan dengan beberapa alternatif perkuatan lereng, yakni Corrugated Concrete Sheet Pile (CCSP), kombinasi Corrugated Concrete Sheet Pile (CCSP) dengan geotextile, dan kombinasi slab on pile dan bronjong. Perencanaan perkuatan lereng dimulai dengan melakukan analisis data tanah, analisis staibilitas lereng, perhitungan perencanaan perkuatan beserta cek keamanan, dan analisis volume dan harga material. Hasil dari perencanaan alternatif perkuatan lereng pada Sungai Segah pada perencanaan turap digunakan turap beton tipe W500A dengan panjang dan jumlah kebutuhan yang berbeda setiap zona. Pada perencanaan kombinasi turap dan geotextile nyatanya di lapangan tidak bisa diaplikasikan di lapangan. Namun, kedua perkuatan tersebut bisa dikombinasikan apabila dikombinasikan dengan bronjong sebagai pelindung di sekitar timbunan. Adapun, hasil perencaaan kombinasi slab on pile dan bronjong digunakan tiang pancang tipe D50 dengan panjang dan jumlah tiang yang berbeda setiap zona dan digunakan dimensi bronjong 2 m x 1 m x 0,5 m. Berdasarkan ketiga perencanaan tersebut,perencanaan perkuatan yang paling efisien untuk diaplikasikan pada perkuatan lereng Sungai Segah adalah perencanaan turap.
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Tanjung Redeb City is flanked by two rivers, namely Segah River and Kelay River. The position of Tanjung Redeb City which is adjacent to the river will affect the construction of roads built on the banks of the river so that it can cause landslides. The cause of the landslide on the banks of the Segah River is quite heavy rain so that cracks appear on the road and usually occur right in the river bend area so that the road body is near the river bank so that it is prone to erosion. On the other hand, the Berau Regency Government plans to change the Segah River bank area into an attractive and clean area by building a city park on another section of Jalan Bujangga. The city park planning area is planned precisely in the Segah River bend area so that reinforcement needs to be provided so that landslides do not occur on the road body. In the development of the area, several alternative slope reinforcements are planned, namely Corrugated Concrete Sheet Pile (CCSP), a combination of Corrugated Concrete Sheet Pile (CCSP) with geotextile, and a combination of slab on pile and gabion. Slope reinforcement planning begins with soil data analysis, slope stability analysis, reinforcement planning calculations along with safety checks, and material volume and price analysis. The results of alternative slope reinforcement planning on Sungai Segah in sheet pile planning use W500A type concrete sheet pile with different lengths and requirements for each zone. In the planning of sheet pile and geotextile combinations, in reality, it cannot be applied in the field. However, the two reinforcements can be combined if combined with gabions as protection around the embankment. Meanwhile, the results of the slab on pile and gabion combination planning use D50 type piles with different lengths and numbers of piles for each zone and use gabion dimensions of 2 m x 1 m x 0.5 m. Based on the three plans, the most efficient reinforcement planning to be applied to the Segah River slope reinforcement is sheet pile planning.

Item Type:	Thesis (Other)
Uncontrolled Keywords:	Bronjong, Corrugated Concrete Sheet Pile (CCSP), Geotextile, Slab on Pile, Bronjong, Corrugated Concrete Sheet Pile (CCSP), Geotextile, Slab on Pile
Subjects:	T Technology > TA Engineering (General). Civil engineering (General) > TA444 Reinforced concrete T Technology > TA Engineering (General). Civil engineering (General) > TA455.S6 Soil (Materials of engineering and construction) T Technology > TA Engineering (General). Civil engineering (General) > TA645 Structural analysis (Engineering) T Technology > TA Engineering (General). Civil engineering (General) > TA683 Precast concrete construction. Prestressed concrete construction. T Technology > TA Engineering (General). Civil engineering (General) > TA749 Soil stabilization T Technology > TA Engineering (General). Civil engineering (General) > TA760+ Retaining walls T Technology > TA Engineering (General). Civil engineering (General) > TA780 Piles and pile-driving T Technology > TA Engineering (General). Civil engineering (General) > TA780.C29 Piling (Civil engineering)
Divisions:	Faculty of Civil Engineering and Planning > Civil Engineering > 22201-(S1) Undergraduate Thesis
Depositing User:	Yasmin Dyah Pitaloka
Date Deposited:	28 Jul 2025 04:38
Last Modified:	28 Jul 2025 04:38
URI:	http://repository.its.ac.id/id/eprint/122126

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