Rotiklot dam is located in Belu Regency that has the tropic climate, with very short wet season (4-5 months) and a very long dry season (7-8 months). The average monthly rainfall in December – April of approximately 300 – 500 mm/month, while in another month only ranges 30- 60 mm/month. During the rainy season, rainwater will overflow as surface water and collect in the river as a flood toward the sea. The construction of a dam is one alternative to overcome the water needs of the community during the dry season. The Rotiklot dam retains the flow of water in the Motamuru River and its reservoir can accommodate 2.9 million m3. Impounding is a process carried out once a dam has been constructed. It is a comprehensive process involving filling time and water inflow. The purpose of this study was to determine the first filling time and the inflow volume in Rotiklot Reservoir in the years of dry, low, normal and sufficient water using the Tank method. It aimed to simulate the initial filling of the reservoir.  Also, the study is expected to evaluate the most suitable Tank model, with parameters calibrated using the Genetic Algorithm optimization approach. The determination coefficient using a four series tank is 0.531 greater than the coefficient obtained from 3 series tank simulation, which was 0.506. The total inflow volume in Rotiklot Reservoir for dry, low, normal and sufficient were 1.946, 7.289, 9.699, 13.822 million m3 respectively. Based on the calculation result of the inflow volume of the year of the low water, the filling time is around three months, starting from mid-December to mid-March. 

Genetic Algorithm; Initial Filling; Inflow Discharge; Rotiklot Reservoir; Tank Model

Amaral and Bilgardo E.D.N.R., 2018. Analisis Pengisian Awal (Impounding) Pada Bendungan Raknamo Dengan Metode Tangki, Kupang: Bachelor Thesis Report. Department of Civil Engineering. Nusa Cendana University.

Badan Pusat Statistik Kabupaten Belu, 2018. Kabupaten Belu dalam Angka Tahun 2017. Jakarta: CV. Nario Sari.

Berlianty, I., and Arifin, M, 2010, Teknik-Teknik Optimasi Heuristik. Yogyakarta: Graha Ilmu.
Kriteria Perencanaan (KP)- 01, 2013. Standar Perencanaan Irigasi -. Jakarta: Kementerian PU

Kuok, K.K., Chiu, P.C., and Harun, S, (2011). Multiobjective Particle Swarm Optimization for optimizing Daily Tank Model’s Parameters. Proceeding of ASEAN Australian Engineering Congress, 25th -27th July 2011, Kuching

Ministry of Construction Japan International Cooperation Agency (JICA), 2003. Run-off Calculation Method. References Material for River Engineering Course.

Regulation Number 37 of Indonesia Government Article-1, 2010.

Balai Wilayah Sungai NT II, 2012. Rotiklot Dam Design Note - Hydrology Report. Kupang: Balai Wilayah Sungai NT II.

Setiawan, B.I., and Rudiyanto, 2007. Optimization of Hydrologic Tank Model’s Parameters, Umea: Department of Forest Ecology Swedish University of Agricultural Sciences, Umea, Sweden

Silva, M.G., Netto, A.O.A., Neves, R.J.J., Vasco, A.N.V, Almeida, C., and Faccioli, G.G., 2015. Sensitivity Analysis and Calibration of Hydrological Modeling of the Watersheed Northeast Brazil. Journal of Environmental Protection, (68), pp. 837-850.

Sosrodarsono, Suyono., and Kensaku, Takeda., 1980. Hydrology for Irrigation, Jakarta: Pradnya Paramita.

Sugawara, M. and Funiyuki, M., 1956. A Method of Revision of River Discharge by Means of Rainfall Model. Collection of Research Papers about Forecasting Hydrologic Variables, pp. 14-18 .

Suryoputro and Nugroho., 2018. Calibration of Infiltration Parameters in the Hydrological Tank Model Using Rational Method Runoff Coefficient Value, Malang: Doctoral Dissertation Report. Department of Civil Engineering. Brawijaya University.