Analysis of the Effect of the Use of Sudetan Pipe Tunnels on the Water Level of the Ciliwung River and Cipinang River, East Jakarta
DOI:
https://doi.org/10.32832/astonjadro.v14i2.17845Keywords:
Ciliwung; flooding; Cipinang; tunnel; sudetan.Abstract
Ciliwung River is one of the 13 major rivers in Jakarta that causes flooding, especially in the East Jakarta area. In an effort to reduce flooding along the Ciliwung River in the DKI Jakarta area, efforts were made to divert part of the Ciliwung River flow during floods to the East Flood Canal channel through the construction of a double pipe tunnel commonly called a sudetan in the Bidara Cina Village area, where the tunnel also passes through the Cipinang River as a diversion of discharge from the Cilwung River. The purpose of this study is to determine the effect of the sudetan pipe tunnel on the water level of Ciliwung River and Cipinang River. In this study, we will model the water level of Ciliwung River and Cipinang River to see the diversion of discharge into the sudetan pipe tunnel to reduce the overflow of water around Ciliwung River and Cipinang River. The method of this research is done by quantitative descriptive method to the value of water level in Ciliwung River and Cipinang River before the sudetan tunnel and after the sudetan tunnel and looking for comparison by using rating curve. The results of this study are based on the modeling analysis of the maximum flood discharge that can be accommodated by the ciliwung river before the existence of the sewer pipe tunnel in Q1 of 323 m3 / s there is an increase after the sewer pipe tunnel which is 539 m3 / s. It can be seen that the use of a sewer pipe tunnel can reduce the flood water level by 4 meters. It can be seen that the use of tunnel pipes can reduce the elevation of flood water up to 4 meters. Obtained for the ciliwung discharge of the return period Q1=323 m3/det Q2=377.66 m3/det Q5=433 m3/det Q10=462.45 Q25=493.52 m3/det Q50=518.83 m3/det Q100=539.62 m3/det.
References
Anastasya Lidya. (2022). Studi Alternatif Pengendalian Banjir Sungai Welang dengan Pendekatan Pemodelan Banjir Aliran 2D. 13(2), 245–257. https://doi.org/10.21776/ub.pengairan.2022.013.02.10
Brunner, G. W. (2024). HEC-RAS HEC-RAS Hydraulic Engineering Center. U.S. Army Corps of Engineers, 6.5(May), 1–477. https://www.hec.usace.army.mil/confluence/rasdocs/ras1dtechref/latest/introduction
Indrawan, I., & Siregar, R. I. (2018). Pemodelan Penerapan Terowongan Air (Tunnel) dalam Mengatasi Banjir Akibat Luapan Sungai Deli. Jurnal Teknik Sipil, 25(2), 113. https://doi.org/10.5614/jts.2018.25.2.4
Leon, A. S., & Goodell, C. (2016). Controlling HEC-RAS using MATLAB. Environmental Modelling and Software, 84(October 2016), 339–348. https://doi.org/10.1016/j.envsoft.2016.06.026
Restu Wigati. (2016). Analisis Banjir Menggunakan Software Hec - Ras 4.1.0 Jurusan Teknik Sipil Universitas Sultan Ageng Tirtayasa |. 5(2), 51–61.
Shaji. (2020). SISTEM PENGALIHAN AIR BAWAH TANAH SEBAGAI PENANGGULANGAN BANJIR METODE ; TINJAUAN. 3605–3614.
Syafullah Fattah, R., Irwan, A., & Yunus, I. (2023). Analisis Debit Banjir Dan Tinggi Muka Air Sungai Cipondoh Di Kota Tangerang. Inter Tech, 1(2), 51–62. https://doi.org/10.54732/i.v1i2.1064
Vissy. (2023). Permodelan reduksi banjir sungai ciliwung akibat adanya sudetan.
Zamroni, F., Sholichin, M., & H., A. P. (2015). Analisa Pengendalian Banjir Kali Ciliwung Ruas Jembatan MT. Haryono – Pintu Air Manggarai. Jurnal Teknik Pengairan, 6(1), 1–13.
Utama, I. W. W., & Wirawibawa, I. B. G. (2023). Natural Resource Potential on Tukad Unda River as Sustainable Tourism in Paksebali Village, Klungkung. ASTONJADRO, 12(2), 480–487. https://doi.org/10.32832/astonjadro.v12i2.8961
Ashari, R. J., & Heryansyah, A. (2021). ANALYSIS AND EVALUATION OF THE DRAINAGE NETWORK SYSTEM IN THE HOUSING AREA OF VILA RIZKI ILHAMI 2 SAWANGAN, DEPOK-WEST JAVA. ASTONJADRO, 11(1), 1–12. https://doi.org/10.32832/astonjadro.v11i1.2904
Barid, B., & Okta Afanda, B. (2022). Increasing Peak Flow of Snyder Synthetic Hydrograph Units in the Serenan Sub-Watershed of Bengawan Solo Watershed. ASTONJADRO, 11(3), 616–626. https://doi.org/10.32832/astonjadro.v11i3.7456
Imammuddin, M., & Priyo Andi Wicaksono, D. (2023). Ciliwung River Normalization Analysis using HEC-RAS Application (TB. Simatupang Bridge to Bidara Cina). ASTONJADRO, 12(1), 86–100. https://doi.org/10.32832/astonjadro.v12i1.7796
Arif, E. J., Sinaga, L., Kristiyanto, K., Barri, A., & Ator, W. T. (2024). Modeling the Implications Green Retrofitting River Conservation was Validated using (SEM) Analysis . ASTONJADRO, 13(3), 858–869. https://doi.org/10.32832/astonjadro.v13i3.15922
Lutfi, M., Chayati, N., Rulhendri, R., Taqwa, F. M. L., & Ramadan, F. R. (2023). Analysis of Cantilever Retaining Wall as Landslide Mitigation on a Tributary of Cisadane River Bogor City. ASTONJADRO, 12(3), 687–697. https://doi.org/10.32832/astonjadro.v12i3.7013
Adi, H. P., Wahyudi, S. I., & Wahyudi, R. S. (2023). Selection of Alternative Locations for Rubber Weirs to Fulfill Clean Water needs in Rembang Regency. ASTONJADRO, 12(3), 709–716. https://doi.org/10.32832/astonjadro.v12i3.8523
Barid, B., & Okta Afanda, B. (2022). Increasing Peak Flow of Snyder Synthetic Hydrograph Units in the Serenan Sub-Watershed of Bengawan Solo Watershed. ASTONJADRO, 11(3), 616–626. https://doi.org/10.32832/astonjadro.v11i3.7456
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2025 ASTONJADRO
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
Paper submitted to ASTONJADRO is the sole property of the Astonjadro Journal. Unless the author withdraws the paper because he does not want to be published in this journal. The publication rights are in the journal Astonjadro.ASTONJADRO
LICENSE
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
Based on a work at http://ejournal.uika-bogor.ac.id/index.php/ASTONJADRO
