Waduk Wonogiri di Wilayah Sungai Bengawan Solo bagian hulu sejak awal beroperasi pada tahun 1980an telah mengalami permasalahan sedimentasi yang mengganggu operasi waduk. Sebagian besar sedimentasi dari DAS Keduang di sisi kanan (Timur) waduk berasal dari erosi permukaan tanah karena tutupan lahan yang rata-rata kurang dari 10%. Untuk mengatasi permasalahan tersebut, telah dibangun closure dike untuk menampung pasokan sedimen dari DAS Keduang. Dengan adanya closure dike, Waduk Wonogiri memiliki 2 tampungan yaitu tampungan utama (main reservoir) dan tampungan sedimen (sediment storage reservoir), serta memiliki 2 bangunan pelimpah (spillway). Laporan tesis ini menyajikan hasil kajian operasi Waduk Wonogiri dalam pengendalian banjir dan penggelontoran sedimen setelah pembagian tampungan waduk menjadi tampungan utama dan tampungan sedimen. Analisis hidrologi dilakukan untuk memperoleh hidrograf banjir inflow dari daerah tangkapan air Waduk Wonogiri ke tampungan utama dan tampungan sedimen. Analisa hidraulika dilakukan dengan simulasi penelusuran waduk untuk mengkaji operasi pintu pelimpah baru dalam pengendalian banjir dan penggelontoran sedimen, khususnya berkaitan dengan gagasan untuk mengubah desain muka air waduk. Penelusuran banjir di waduk dengan 2 kondisi yaitu kondisi lama dengan elevasi awal muka air +135,3 m dan kondisi baru dengan elevasi awal muka air +136,3 m. Hasil analisis menunjukkan adanya perubahan hidrograf banjir rancangan yang perlu dipertimbangkan dalam perhitungan simulasi penelusuran banjir di waduk. Kondisi Waduk Wonogiri aman terhadap risiko overtopping melalui closure dike untuk banjir kala ulang 60 tahun, namun tidak aman untuk banjir kala ulang 500 tahun. Untuk mengantisipasi risiko tersebut disarankan melakukan modifikasi pola operasi Waduk Wonogiri dengan mengatur full opening gate pada pelimpah baru. Analisis hubungan antara debit air (Qw) dan debit sedimen (Qs) menghasilkan persamaan kurva lengkung sedimen Qs = 0,5505 × Qw^1,2716. Dengan persamaan tersebut dapat dilakukan analisis debit dan volume angkutan sedimen yang tergelontor setiap kali ada release melalui pelimpah baru.

Wonogiri reservoir in the upper Bengawan Solo River Basin since operation 1980 has experienced sedimentation problems that have disrupted reservoir operations. Most of the sedimentation from the Keduang watershed on the right (East) side of the reservoir comes from soil surface erosion due to land cover which is on average less than 10%. To overcome this problem, a closure dike was built to localize sediment supply from the Keduang watershed. With the closure dike, the Wonogiri Dam has 2 reservoirs, namely the main reservoir and the sediment storage reservoir, and has 2 spillways. This thesis report presents a review of the operation of the Wonogiri Reservoir for flood control and sediment flushing purposes with new condition of main reservoir and sediment storage. Hydrological analysis was carried out to obtain the inflow flood hydrograph from the Wonogiri Reservoir catchment area to the main reservoir and sediment reservoir. Hydraulic analysis was carried out by reservoir routing simulation to assess the operation of new spillway gates in flood control and sediment flushing, particularly with regard to the idea of changing the design of reservoir water levels. Reservoir routing was conducted with 2 conditions, namely the old condition with initial water level elevation +135,3 m and new conditions with initial water level elevation +136,3 m. The analysis shows that there is a change in the design flood hydrograph, which needs to be considered in calculating flood tracking simulations in reservoirs. The condition of the Wonogiri Reservoir is safe against the risk of overtopping through the closure dike for 60 year return period of flood, but not safe for 500 year return period. To anticipate this risk, it is recommended to modify the operating pattern of the Wonogiri Reservoir by adjusting the full opening gate for the new spillway. Analysis of the relationship between water discharges (Qw) and sediment discharges (Qs) produces the sediment rating curve Qs = 0,5505 × Qw^1,2716. The sediment rating curve can be used to monitor the discharges and volume of the released sediment through the new spillway.

Kata Kunci : closure dike, penelusuran banjir di waduk, pengendalian banjir, penggelontoran sedimen