Hydrology in PracticeThis introduction to hydrology is essentially practical, emphasising the application of hydrological knowledge to the solution of engineering problems. |
Contents
1 | 10 |
1 | 16 |
References | 32 |
1 | 47 |
5 | 56 |
Evaporation | 64 |
Soil Moisture | 80 |
River Flow | 96 |
River Flow Analysis | 280 |
RainfallRunoff Relationships | 315 |
Catchment Modelling | 342 |
Stochastic Hydrology | 371 |
Flood Routing | 399 |
Design Floods | 422 |
Urban Hydrology | 452 |
Water Resources | 480 |
Groundwater | 132 |
Water Quality | 160 |
Data Processing | 179 |
Precipitation Analysis | 207 |
Evaporation Calculations | 245 |
River Basin Management | 507 |
References | 526 |
Appendix Statistical Formulae | 550 |
| 558 | |
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Common terms and phrases
analysis annual rainfall applied aquifer areal rainfall assessment average baseflow basin calculated catchment area channel Chapter climatic coefficient component correlogram curve day-¹ depth derived distribution downstream drainage drainage basin drought duration effective rainfall engineering equation estimate evaluated evapotranspiration Flood Studies Report forecasting frequency gauging station given groundwater hydraulic hydrological cycle hydrologist inflow Institute of Hydrology isohyets Kielder Water km² low flows m³s-¹ measurements Meteorological Office monthly obtained outflow parameters permission piezometer pipe plotted potential evaporation precipitation radiation rain gauge records regions relationship Reproduced reservoir return period River Dee river flow river gauging routing sample saturated scheme seasonal shown in Fig soil moisture stage storage storm stream surface runoff techniques temperature tion unit hydrograph urban values variables velocity water level water quality water resources water table water vapour weir