The Management Of Flood Protection System Of Dewa Ruci Underpass In Bali

  • Putu Martha Risnadinata Udayana
  • I Nyoman Satya Kumara
  • Wayan Gede Ariastina

Abstract

Dewa Ruci intersection is one point of traffic congestion point in Bali. Dewa Ruci is a major intersection that connects the city of Denpasar, Kuta, Jimbaran, and Nusa Dua. In addressing traffic congestion, built underpass so that traffic becomes smooth when passing through the intersection Dewa Ruci. Part of the Dewa Ruci intersection is below the ground level, so risks of flooding. The source of water that potentially fills the underpass is groundwater seepage and rainfall. The flood protection of the underpass is capable of storing 1344 m3 water and with the pumping system. In this research, the maintenance, operation, and management model of the flood protection system is developed that includes the development of organizational structures and standard operating procedures to ensure that the Dewa Ruci flood protection system works well sustainably.

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References

[1] Assauri, S., 2004. Manajemen Produksi dan Operasi, Revisi. ed. FE UI.
[2] aws, ahy, 2015. BPKAD DKI: Rumah Pompa di Pluit Mati karena DKI Nunggak ke PLN. detiknews.
[3] Ayuningtyas, A., 2015. Inovasi Belanda dalam Teknologi Pencegahan Banjir dan Air Pasang.
[4] Barbera, L., Crespo, A., Viveros, P., Stegmaier, R., 2013. A Case Study of GAMM (Graphical Analysis for Maintenance Management) Applied to Water Pump in A Sewage Treatment Plant, Chile. Wiley Online Libr.
[5] Bijlsma, L., 2011. Water Management in the Netherlands.
[6] Davie, E., Hughes, P., 2010. Making The of Local Flood Management Planning in Melbourne’s Municipalities and The Port Philip and Westernport Region.
[7] Heizer, J., Render, B., 2005. Operations Management, 7th ed. New Jersey.
[8] Horn, D., Granger, M., 2005. Optimizing The Asset Management of Pumps Through Integrated Online Monitoring, in PROCEEDINGS OF THE TWENTY-SECOND INTERNATIONAL PUMP USERS SYMPOSIUM.
[9] Max, T., 2013. Proyek Underpass Simpang Dewa Ruci. Proy. Underpass Simpang Dewa Ruci.
[10] Pieter, J., 2007. The Water System and Water Chain in Dutch Water and Environmental Legislation. LEAD J. Law Environ. Dev. J. 3/2, 202.
[11] PPK Simpang Dewa Ruci. 2014. Denpasar: Kementerian Pekerjaan Umum Direktorat Jenderal Bina Marga
[12] Satmoko, A., 2008. Analisis Kualitatif Teknik Thermography Infra Merah Dalam Rangka Pemeliharaan Secara Prediktif Pada Pompa. Pus. Teknol. Reakt. Dan Keselam. Nukl.-BATAN.
[13] Sunkpho, J., OOtamakorn, C., 2011. Real-time Flood Monitoring and Warning System. SJST Songklanakarin J. Sci. Technol., 2 33.
[14] Wahyu Hidayat, M., 2015. Cegah Banjir, Pemda Jakarta Siapkan 550 Pompa. Tempoco Metro.
[15] Woodward, M., Kapelan, Z., Gouldby, B., 2013. Adaptive Flood Risk Management Under Climate Change Uncertainty Using Rear Option and Optimisation. J. Risk Anal.
Published
2020-08-31
How to Cite
RISNADINATA, Putu Martha; KUMARA, I Nyoman Satya; ARIASTINA, Wayan Gede. The Management Of Flood Protection System Of Dewa Ruci Underpass In Bali. Journal of Electrical, Electronics and Informatics, [S.l.], v. 4, n. 2, p. 57-63, aug. 2020. ISSN 2622-0393. Available at: <https://ojs.unud.ac.id/index.php/jeei/article/view/60346>. Date accessed: 25 nov. 2024. doi: https://doi.org/10.24843/JEEI.2020.v04.i02.p04.

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