Banjir Bengawan Solo sering terjadi akhir-akhir ini dan menimbulkan banyak kerugian. Oleh karena itu fungsi pengendalian banjir menjadi pertimbangan yang sangat penting yakni sebagai upaya mitigasi bencana banjir di Wilayah Sungai Bengawan Solo Hulu, yang meliputi Kota Surakarta, Kabupaten Karanganyar, dan Kabupaten Sragen. Agar pelaksanaan pengendalian banjir dapat berjalan dengan baik, salah satu caranya melalui pengoperasian pintu spillway Waduk Wonogiri yang terpadu dengan sistem informasi hidrologi yang ada. Kurangnya informasi hidrologi pada periode banjir berupa hidrograf banjir inflow menyebabkan ketidakpastian bukaan pintu spillway Waduk Wonogiri. Untuk itu perangkat lunak untuk memadukan informasi hidrologi di daerah tangkapan air (DTA) Waduk Wonogiri dan bukaan pintu spillway perlu dibuat untuk meningkatkan kinerja pengendalian banjir yang lebih terintegrasi dan lebih cepat. Prosedur utama yang dilakukan dalam pembuatan perangkat lunak ini ada 3 (tiga) simulasi yaitu simulasi flood forecasting di 8 Sub DAS daerah tangkapan air Waduk Wonogiri berdasarkan kondisi tata guna lahan, simulasi flood routing untuk mendapatkan informasi bukaan pintu spillway Waduk Wonogiri pada periode banjir dan rekomendasi bukaan pintu spillway. Simulasi flood forecasting dilakukan berdasarkan informasi hidrologi dari 14 pos stasiun hujan dan baseflow dari 8 Sub DAS. Setelah itu informasi tersebut digunakan untuk mendapatkan hidrograf banjir inflow di setiap Sub DAS, dan hidrograf banjir inflow total yang masuk ke tampungan Waduk Wonogiri. Langkah kedua ialah simulasi flood routing untuk mendapatkan bukaan pintu spillway Waduk Wonogori dimana user dapat menentukan outflow maksimum menyesuaikan bankfull capacity nya yakni sebesar 400 m 3 /s, dengan memperhitungkan faktor keamanan bendungan yaitu elevasi tampungan air maksimum +139.1 m sebagai elevasi kritis pada periode banjir. Tahap ketiga ialah rekomendasi bukaan pintu spillway hasil simulasi flood routing. Hasil pengembangan perangkat lunak dengan compiler PHP dan MySQL menunjukan informasi curah hujan realtime di setiap pos hujan, aliran baseflow di setiap DAS, inisial Tinggi Muka Air Waduk Wonogiri dan bukaan awal pintu spillway yang diterima oleh perangkat lunak dapat langsung diolah menjadi hidrograf banjir inflow total Waduk Wonogiri dan dapat langsung diketahui pengoperasian pintu spillway pada setiap jam nya. Ketelitian perhitungan neraca air pada model ini dibawah 1% yang menunjukkan perhitungan simulasi flood routing cukup akurat. Dengan begitu kinerja pengendalian banjir (flood control) Waduk Wonogiri di Wilayah Sungai Bengawan Solo pada periode banjir menjadi lebih baik.

The floods of Solo had caused a lot of losses lately. Therefore, function of flood control is an important consideration as a flood mitigation efforts in the territory of the upstream of Bengawan Solo River Basin, which includes the city of Surakarta, Karanganyar, and Sragen. In order to flood control can operate with very good, one way is through an integrated system for the operation opening gate of spillway at Wonogiri Reservoir. Lack of hydrological information on the flood period, causes uncertainty operation of spillway at Wonogiri Reservoir. So that the software to integrate hydrological information in the catchment area at Wonogiri Reservoir and opening gate of spillway need to be made to improve the performance of flood control more integrated and better. Main procedure that created in this software are three simulation. There are consist of simulation of flood forecasting in catchment area at Wonogiri Reservoir based on the current land use, simulation of flood routing to obtain opening gate of spillway at Wonogiri Reservoir in flood period and the recommendation in rule of opening gate of spillway. Simulation of flood forecasting obtained based on hydrological information from 14 rainfall stasion and base flow from 8 watershed. After that the information will be used to get hydrograph flood inflow in each watershed, and the all of information summed to obtain the total of flood hydrograph who will enter the Wonogiri Reservoir. The next step is simulation of flood routing to obtain opening gate of spillway at Wonogiri Reservoir where the user can determine the maximum outflow adjust bankfull capacity with discharge 400 m 3 /s, of course by looking at the dam safety criteria is maximum elevation +139.1 meter as critical elevation in flood period. The last is the recommendation in rule opening gate of spillway from flood routing simulation. Result of software development with compiler PHP an MySQL showed real-time hydrological information each rainfall station, base flow each watershed, initial elevation of Wonogiri Reservoir and initial opening gate of spillway that received by software can be directly calculated to be total flood hydrograph inflow and can be directly know the operation opening gate of spillway in every single hour. Accuracy of water balanced calculations on this model is less than 1%. This performance indicates that the simulation of flood routing is accurate enough. Thus the model can be applied to improve the performance of flood control at the upstream of Bengawan Solo River Basin.

Kata Kunci : Flood forecasting, flood routing, flood control, bankfull capacity, realtime.