Besaran debit puncak dapat diperkirakan dengan mengalihragamkan hujan yang jatuh pada suatu DAS menjadi aliran. Aliran besar pada sungai atau peristiwa banjir, terkait dengan peristiwa hujan serta sifat topografi, morphometri, dan tata guna lahan dari DAS tersebut. Kurangnya data aliran dapat menghambat analisis hidrologi. Untuk mengatasi permasalahan ini, maka dilakukan pengembangan model hidrologi dalam memperkirakan besaran debit puncak berdasarkan sifat morphometri DAS. Penelitian ini mencoba mengembangkan suatu model matematik untuk menghitung debit puncak berdasarkan parameter pada suatu DAS seperti luas DAS (A), kelandaian (S), jumlah pertemuan anak sungai (JN), kerapatan jaringan kuras (D), panjang sungai (L), serta curah hujan (P). Berdasarkan analisis index-flood method dilakukan pengembangan persamaan prakiraan debit banjir rancangan dari hubungan antara growth factor dengan debit banjir tahunan rata-rata. Selain itu berdasarkan parameter-parameter DAS dilakukan analisis regresi untuk mendapatkan hubungan antara debit puncak dengan morphometri DASnya. Hasil analisis menunjukkan bahwa terdapat hubungan yang signifikan antara besarnya debit dan hujan serta sifat morphometri DAS-nya. Banjir tahunan rata-rata merupakan fungsi dari luas DAS (A). Index-flood method menghasilkan debit rancangan (QT) yang merupakan fungsi dari debit tahunan rerata (Q2,33) dan growth factor (GFT) dengan penyimpangan sebesar 13,19%. Debit banjir rancangan fungsi dari morphometri DAS (S, L, PT) memberikan hasil debit rancangan (QT) dengan penyimpangan sebesar 15,09%.

The peak discharge value can be estimated by rainfall-runoff model at the drainage basin to become the stream. Large stream in river or flood event is related to the rainfall event and its topography, morphometry and landuse of its drainage basin. Lack of flow data may create dificulties in hydrology analysis. To cope with this problem, it is required to develop an emphiric hydrology model in order to estimate the peak discharge value based on its morphometry characteristics. The objective of this research is to develop a mathematic model that is useful for calculating peak discharge. The calculation is based on the parameters of the drainage basin, such as drainage basin area (A), slope (S), numbers of watercourses (JN), drainage density (D), length of the river (L) and rainfall (P). Based on the index-flood method, a design flood discharge equation of the relationship between growth factor (GFT) and mean annual flood discharge(Q2,33) was developed. In addition, based on the parameters of drainage basin, this research also uses regression analysis to obtain the relationship between peak discharge and morphometry of drainage basin. The results show that there is a significant relationship between peak discharge value and rainfall and its morphometry characteristic. The average annual flood is the function of its drainage basin area (A). Result of Index flood method is design flood (QT) as a function of Q2,33 and GFT. The deviation of estimated design flood (QT)with respect to observed one is around 13.19%. The design flood is the function of its drainage basin morphometry (S, L, PT) providing the result of design flood (QT) with deviation of 15,09%.

Kata Kunci : Banjir rancangan, Analisis regresi, Morphometri DAS, Growth factor, design flood, regression analysis, drainage basin morphometry