Course : Applied Hydrology and Hydraulics

1. Ponce, 1990, Principle in Engineering Hydrology, Butterworth
2. Chow, V.T., Maidment, D.R. and Mays, L.W., 1988, Applied Hydrology, MC-Graw-Hill Book Company, New York
3. F.J. Mock, 1973, Land Capability Appraisal Indonesia, Water Availability Appraisal, FAO UN, Bogor, Indonesia
4. Scharffenberg, W.A., 2013, Hydrologic Modeling System HEC-HMS: User’s Manual, U.S. Army Corps of Engineers, HEC, Davis, CA
5. Sujono, J., 2014, Petunjuk Singkat Aplikasi HEC-HMS, Jurusan Teknik Sipil dan Lingkungan FT UGM.
6. USAC, 2010, HEC-RAS Hydraulic Reference Manual, U.S. Army Corps of Engineers, Institute for Water Resources, Hydraulic Engineering Center, Davis, USA

This course contains the hydrology review (rain-flow response and frequency analysis), effect of land closure (vegetation, road network, infrastructure) to continuous flow phenomenon (low flow) also eventual flow (peak flow), global weather change, low and peak flow calculation method, software application to predict peak and low flow pattern based on characteristic change in catchment area (HEC-HMS, WMS), environmental aspect in the implementation of hydrological analysis.

Review of flow types (permanent flow, non-permanent flow, uniform flow, non-uniform flow), basic equation of flow and numerical solution, one-dimensional mathematical model (algorythm, numerical solution, hydraulic stability), application of hydrodynamic mathematical model for flood routing: simple channel (single channel, prismatic section), junction, bridge, culvert, permanent dam, movable dam.

1. Hydrology (Semester III)
2. Fluid Mechanics (Semester II)
3. Open Channel Hydraulics (Semester IV)

The students are expected to be able to understand the hydrological phenomenon, both in river system and communal water system able to operate several softwares to determine hydrological design scale, the impact of catchment area treatment to large and small extremem flow.

The students are expected to be able to understand several flow phenomenon in simple channel, including simple channel (single channel, prismatic section), river network, and flow through hydraulic structure, also master mathematical model software one dimension hydrodynamics.

(e) An ability to identify, formulate, and solve civil engineering problems by considering local resources

(k) An ability to use the techniques, skills, and modern engineering tools for civil engineering practice

1. Introduction to Hydrology and Applied Hydraulics
2. Design Rainfall, Flood
3. Hydrometry
4. Synthetic Stream Flow
5. Availability And Water Balance
6. HEC – HMS
7. Understanding HEC – RAS
8. Simulation of flow in simple channel, brooked river
9. Simulation of flow in: bridge, culvert, weir
10. Simulation of flow through: motion weir, side overflow, shelter pond/ puddle area
11. Stream simulation: Storage Area, Pump Station, Gates