The Dynamic Model of Water Balance in A Sub-Basin

Authors

  • Dea Evantri IPB University
  • Muh. Yanuar J. Purwanto IPB University
  • Nora Pandjaitan IPB University
  • Roh Santoso Budi Waspodo IPB University

DOI:

https://doi.org/10.23960/jtep-l.v12i1.236-245

Abstract

Management of water resources in a river basin requires a new approach. The availability of water is a basic thing that must be considered given the increasing need for water. This study aimed to develop a water balance model in the Upper Bekasi River Sub Basin. In this study water balance model of the Bekasi River Sub Basin was built with several variables that affect water demand and availability, namely population growth rate, public facilities, and efforts to utilize resources. In this research, water supply and demand modelling was carried out using a dynamic system supported by Vensim software. Simulations were carried out from 2012 to 2045. The increase in population growth was directly proportional to the increased in population water needs. This dynamic model simulation used the application of rainwater harvesting and water-saving behaviour. Water demand for the Bekasi River Sub Basin was equal to 156.649.000 m3/year. The availability of surface water was 138.127.680 m3/year and had not been able to meet the water needs. The dynamic model showed that the water balance will be deficit in 2031, namely 51.883.200 m3/year. However, with the application of the water saving scenario, the water balance has a surplus of 258.564.000 m3 / year until the end of the simulation. Water reducing behavior can be used as an efficient method of water utilization.

 

Keywords: Population, Rainwater harvesting, Simulation, Water management, Water resource

References

Asdak, C. (2007). Hidrologi dan Pengelolaan Daerah Aliran Sungai. Yogyakarta: Gadjah Mada University Press.

Baskoro, D.A.P., Purwanto, M.Y.J., & Solahudin, M. (2020). Watershed based model for water allocation. The 3rd International Confrence on Agricultural Engineering for Sustainable Agriculture Production. Vol-542. IOP Conf. Series: Earth and Environmental Science. doi: 10.1088/1755-1315/542/1/012056.

BBWS (Balai Besar Wilayah Sungai Ciliwung Cisadane). (2019). Lampiran Data Debit Harian DAS Kali Bekasi. Jakarta: Direktorat Jenderal Sumberdaya Air.

BMKG (Badan Meteorologi Klimatologi dan Geofisika). (2016). Buletin Analisis Hujan Bulan Maret 2016 dan Prakiraan Hujan Bulan Mei, Juni dan Juli 2016. Bogor: Stasiun Klimatologi Dramaga.

BSN (Badan Standardisasi Nasional). (2015). Penyusunan Neraca Spasial Sumber Daya Alam, SNI 6728.1:2015. Bandung: Badan Standardisasi Nasional.

Eda, L.E.H., & Chen, W. (2010). Integrated water resources management in Peru. International Society for Environmental Information Sciences 2010 Annual Conference (ISEIS). Procedia Environmental Sciences, 2, 340–348

Haug, H.P. (1998). Water Supply Engineering, Centre for Infrastructure Planning. Stuttgart: University of Stuttgart.

KemenPU (Kementrian Pekerjaan Umum). (2013). Standar Perencanaan Irigasi. Kriteria Perencanaan Bagian Perencanaan Jaringan Irigasi. Jakarta: Kementrian Pekerjaan Umum

KemenESDM (Kementrian Energi dan Sumber Daya Mineral). (2011). Laporan Tahunan Badan Geologi. Bandung: Kementrian ESDM.

Malaka, H., Purwanto, M.Y.J., & Zein, A. (2015). Analisis sistem dinamik neraca air di Pulau Tidore. Jurnal Agronomi Indonesia. 8(2), 125-136.

Njiru, C., Mugabi, J., & Kayaga, S. (2006). Strategic planning for water utilites in developing countries. Utilties Policy, 15(1), 1-9.

Nurhayati, M. (2008). Strategi Optimasi Daya Dukung Sumberdaya Air di Kota Bekasi [Thesis]. Jakarta: Universitas Indonesia.

Nurrohman, F., Paksi, S.W.E., Sangkawati, S., & Sugiyanto, S. (2015). Perencanaan panen air hujan hujan sebagai sumber air alternatif pada kampus Universitas Diponegoro. Jurnal Karya Teknik Sipil, 4(4), 283-292.

Purwanto, M.Y.J. (2014). Pengantar Pengelolaan Sumber Daya Air. Modul PWKL422-M1. Universitas Terbuka. http://repository.ut.ac.id/4313/1/PWKL4221-M1.pdf.

Rengganis, H., & Harnandi, D. (2011). Penilaian kondisi air tanah dan upaya konservasi di wilayah cekungan air tanah Bogor. J. Tek. Hidrolik., 2(2), 97-192.

Rizal, F., Alfiansyah, Y.B.C., & Rizalihadi, M. (2014). Analisa perbandingan kebutuhan air irigasi tanaman padi metode konvensional dengan metode “System of Rice Intensification†(SRI) organik. Jurnal Tek. Sipil Pascasarjana Universitas Syiah Kuala, 3(4), 67-76.

Sari, I.K., Limantara, L.M., & Priyantoro, D. (2011). Analisa ketersediaan kebutuhan air pada DAS Sampean. Jurnal Pengairan Universitas Brawijaya, 2(1), 1-13.

Satrio, P., & Suryani, E. (2017). Penerapan model sistem dinamik untuk melakukan pemeliharaan operasional aset unit transmis dan visualisasi luaran model dengan menggunakan dashboard (Studi Kasus: PT. PLN (Persero) App Semarang. Jurnal Teknik ITS, 6, A327-A332.

Sterman, J.D. (2000). Business Dynamics: Systems Thinking and Modeling for A Complex World. Boston (MA): Irwin McGraw-Hill.

Wong, T.H.F., & Brown, R.R. (2009). The water sensitive city: principies for practice. Water Science & Tecnology, 60(3), 673-682.

Yulistyorini, A. (2011). Pemanenan air hujan sebagai alternatif pengelolaan sumberdaya air perkotaan. Teknologi dan Kejuruan, 34(1), 105-114.

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Published

2023-03-20

Issue

Vol. 12 No. 1 (2023): March 2023

Section

Articles

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