KnE Social Sciences

ISSN: 2518-668X

The latest conference proceedings on humanities, arts and social sciences.

Flood Management in the Babon River Watershed, Semarang City

Published date: Mar 12 2024

Journal Title: KnE Social Sciences

Issue title: 6th International Conference on Education and Social Science Research (6th ICESRE)

Pages: 500–507

DOI: 10.18502/kss.v9i6.15299

Authors:

Ikhwanudin .ikhwanudin@upgris.ac.idCivil Engineering, Universitas PGRI Semarang, 50232, Indonesia

Farida YudaningrumCivil Engineering, Universitas PGRI Semarang, 50232, Indonesia

Imadudin HarjantoMecanical Enginering, Universitas PGRI Semarang, 50232, Indonesia

Abstract:

Floods are natural disasters that often occur during the rainy season, Apart from that, there are also tidal floods which are caused by global warming. This problem occurs in the city of Semarang, especially northern Semarang, specifically the northern coast floods that occurred in 2021 in the city of Semarang including Genuk, Kaligawe, Tawang Station, Tanjungmas, and Karangayu. Flood disasters are caused by high rainfall, while tidal floods are caused by high tides and inundate the roads and houses of residents on the north coast of Semarang city. To handle this problem, the current government has built embankments in the Sringin River, which is equipped with a ponpa, Tenggang River, Babon River, Semarang River, Banger River, and others. The embankment is equipped with a pump so that when the water from upstream to downstream is high, the water is pumped into the sea. The aim is to determine one of the annual discharges of the Baboon river, as well as to determine the capacity of the Baboon river’s longstorage capacity. Apart from that, there is a method for dealing with tidal floods, namely using Baboon River Longstorage which is equipped with a pump. If high tide floods roads and houses, the pump is turned on, whereas if the water recedes and does not inundate residential areas, the pump is turned off. Flood control analysis was calculated using the HEC-RAS program simulation using a return period of 50 years. Based on calculations using the HEC-RAS program, the flood discharge is 2,529 m³/sec. The high tide elevation is + 1.67 m, while the normal water level is -0.5 m. The implication of the results of this research is to provide input to local governments when discussing flood management meetings in the city of Semarang.

Keywords: babon, longstorage, hec-ras

References:

[1] Ikhwanudin SI. Wahyudi, eta Soedarsono, «Methods for Handling Rob Floods in the Banger River Basin in Semarang City», J. Phys. Conf. Ser., libk. 1625, zenb. 1, 2020, https://doi.org/10.1088/1742-6596/1625/1/012041...

[2] Suliyati T. «Penataan Drainase Perkotaan Berbasis Budaya Dalam Upaya Penanganan Banjir Di Kota Semarang», Humanika, libk. 19, zenb. 1, or. 59, 2016, https://doi.org/10.14710/humanika.19.1.59-69...

[3] M. Perkiraan Laju Aliran Puncak Sebagai Dasar Analisis Sistem Drainase di Daerah Aliran Sungai Wilayah Semarang Berbantuan SIG, T. Wismarini, eta D. Handayani Untari Ningsih dan Fatkhul Amin, «Metode Perkiraan Laju Aliran Puncak (Debit Air)sebagai Dasar Analisis Sistem Drainase di Daerah Aliran Sungai Wilayah Semarang Berbantuan SIG», J. Teknol. Inf. Din., libk. 16, zenb. 2, or. 124–132, 2011.

[4] Wahyudi SI, Faiqun M, Le Bras G. «Problems, Causes and Handling Analysis of Tidal Flood, Erosion and Sedimentation in Northern Coast of Central Java : Review and Recommendation», zenb. 04, or. 65–69, 2012. 5. Adi HP, Wahyudi SI. «Study of Institutional Evaluation in Drainage System Management of Semarang as Delta City», Proc. Int. Conf. “Issue, Manag. Eng. Sustain. Dev. Delta Areas, UNISSULA Semarang, libk. 1, zenb. 2, or. 1–7, 2015.

[5] Suripin S, Kurniani D. «Pengaruh Perubahan Iklim terhadap Hidrograf Banjir di Kanal Banjir Timur Kota Semarang», Media Komun. Tek. Sipil, libk. 22, zenb. 2, or. 119, 2016, https://doi.org/10.14710/mkts.v22i2.12881...

[6] Budinetro HS, Rahayu S, Praja TA, Taufiq A, Junarsa D. «Semarang City Flood Control Strategy», J. Sumber Daya Air, libk. 8, zenb. 2, or. 141–156, 2012.

[7] Diya SG, et al., «Flood simulation model using XP-SWMM along Terengganu River, Malaysia», J. Fundam. Appl. Sci., libk. 9, zenb. 2S, or. 66, 2018, https://doi.org/10.4314/jfas.v9i2s.5...

[8] C. E. Departement, U. Islam, S. Agung, eta J. R. Kaligawe, «Banger Watershed Management in», libk. 11, zenb. 4, or. 106–114, 2020.

[9] Ikhwanudin AR, Yudnangrum F, Hidayah N. «Penanggulangan banjir di jalan brigjen s. sudiarto kota semarang sta. 0.00 – 8.00», libk. 10, zenb. 2, or. 168–174, 2022.

[10] Udin I, Yudaningrum F, Rossid A. «PENANGGULANGAN BANJIR DI Jl. BRIGJEN S. SUDIARTO, KOTA SEMARANG Sta 0.00-8.00», Matriks Tek. Sipil, libk. 10, zenb. 2, or. 168, 2022, https://doi.org/10.20961/mateksi.v10i2.61219...

[11] I. Artikel, «Pengendalian Banjir Sungai Banger Kota Semarag Dengan Analisa Hec- Ras», libk. 17, zenb. 2, or. 71–79, 2022.

[12] Zhang L, Oyake Y, Morimoto Y, Niwa H, Shibata S. «Flood mitigation function of rain gardens for management of urban storm runoff in Japan», Landsc. Ecol. Eng., libk. 16, zenb. 3, or. 223–232, 2020, https://doi.org/10.1007/s11355-020-00409-8...

[13] Harjanto I, Yudaningrum F, Budiman AK. «Flood Analysis of Babon River (Kang Roto – Banjardowo) Semarang City Indonesia», libk. 65, zenb. 01, or. 8135–8141, 2023.

[14] Wigati R. «Model Analisis Efektivitas Saluran Drainase Menggunakan Software Hec- Ras», Researchgate.Net, zenb. October 2017, 2020.

Download
HTML
Cite
Share
statistics

123 Abstract Views

68 PDF Downloads