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Intro -- Catchment Hydrological Modelling: The Science and Art -- Copyright -- Contents -- Acknowledgments -- Chapter 1: Introduction -- 1.1. What is a catchment hydrological model? -- 1.2. Types of models -- 1.2.1. Physically based, conceptual and empirical models -- 1.2.2. Lumped, distributed and semidistributed models -- 1.2.3. Continuous-time simulation and event-based simulation models -- 1.3. Basin, catchment, watershed-Are they all the same? -- 1.4. Purpose of a catchment model -- 1.5. What makes a catchment model different from a river model?
1.6. Components of a catchment model and catchment water balance -- 1.7. The science and art of catchment modelling -- References -- Chapter 2: Data requirements for a catchment model -- 2.1. Data requirements -- 2.1.1. Time-invariable data for model construction -- 2.1.2. Time-variable data -- 2.1.3. Data for model calibration and validation -- 2.2. Data (spatial) and model resolution -- 2.3. Data availability and input -- 2.3.1. DEM, land use (land cover) and soil data -- 2.3.2. Meteorological data-precipitation -- 2.3.3. Meteorological data-temperature
2.3.4. Elevation bands for precipitation and temperature data -- References -- Chapter 3: Models of evaporation and interception -- 3.1. Evaporation and evapotranspiration -- 3.2. Energy balance approach for evaporation (evapotranspiration) -- 3.3. Penman and Penman-Monteith equations -- 3.3.1. Penman-Monteith equation -- 3.3.2. Penman equation with the wind function -- 3.4. Estimation of Penman and Penman-Monteith equation parameters -- 3.4.1. Latent heat of vaporization (Lv) and specific heat capacity of air at constant pressure (cp)
4.1. Role of the unsaturated (vadose) zone -- 4.2. Unsaturated (vadose) zone flow methods -- 4.2.1. SCS curve number -- 4.2.2. Soil water (moisture) accounting -- 4.2.3. Green and Ampt equation -- 4.2.3.1. Solution of the Green and Ampt equation -- 4.2.4. Richards equation -- 4.2.4.1. Solution of the Richards equation -- 4.2.4.2. Initial and boundary conditions -- 4.3. Interflow methods -- 4.4. How different catchment models treat unsaturated zone? -- References -- Chapter 5: Models of surface (overland) flow routing -- 5.1. What is surface flow routing?
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