NPTEL : NOC:Surface Water Hydrology (Civil Engineering)

Co-ordinators : Prof. Rajib Maity


Lecture 1 - Introduction

Lecture 2 - Hydrologic Cycle and its Different Components

Lecture 3 - Hydrological System Concept

Lecture 4 - Surface Water Resources of India

Lecture 5 - Hydrology and Climate Change

Lecture 6 - Different Forms of Precipitation and Indian Monsoon

Lecture 7 - Measurement and Analysis of Precipitation

Lecture 8 - Precipitation Data Quality and Presentation

Lecture 9 - Areal Precipitation and Frequency Analysis

Lecture 10 - Analysis of Precipitation: IDF and PMP

Lecture 11 - Introduction to Evaporation and Evaporimeters

Lecture 12 - Estimation of Evaporation and Control Measures

Lecture 13 - Evapotranspiration

Lecture 14 - Initial Loss and Infiltration Process

Lecture 15 - Modelling of Infiltration Capacity

Lecture 16 - Infiltration Indices

Lecture 17 - Measurement of Flow Velocity

Lecture 18 - Area-Velocity and Moving-Boat Methods

Lecture 19 - Dilution Technique, Electromagnetic and Ultrasonic Methods

Lecture 20 - Indirect Streamflow Measurement

Lecture 21 - Stage-Discharge Relationship and Rating Curve

Lecture 22 - Introduction and Catchment Characteristics

Lecture 23 - Estimation of Runoff Volume: Empirical Models

Lecture 24 - Estimation of Runoff Volume: Conceptual Models

Lecture 25 - Flow Characteristic Curves and Estimation of Reservoir Storage

Lecture 26 - Concept of Droughts and Environmental Flows

Lecture 27 - Basics of Hydrographs

Lecture 28 - Base Flow Separation, DRH and ERH

Lecture 29 - Introduction to Unit Hydrographs

Lecture 30 - Unit Hydrograph to Direct Runoff Hydrograph

Lecture 31 - Derivation of Unit Hydrograph

Lecture 32 - Unit Hydrograph of Different Durations: Method of Superposition

Lecture 33 - Unit Hydrograph of Different Durations: Method of S-Curve

Lecture 34 - More on Unit Hydrographs

Lecture 35 - Synthetic Unit Hydrograph

Lecture 36 - Instantaneous Unit Hydrograph

Lecture 37 - Introduction to Floods and Rational Method

Lecture 38 - Flood Peak Discharge and Catchment Characteristics

Lecture 39 - Estimation of Peak Flood Flow

Lecture 40 - Flood Control and its Status in India

Lecture 41 - Introduction to Flood Routing

Lecture 42 - Reservoir Routing: Modified Pul’s Method

Lecture 43 - Reservoir Routing: Goodrich Method and Runge-Kutta Method

Lecture 44 - Channel Routing: Parameters of Muskingum Method

Lecture 45 - Channel Routing: Muskingum Method and Hydraulic Flood Routing

Lecture 46 - Concept of Routing in IUH Development and Clark’s Method

Lecture 47 - Nash’s Conceptual Model

Lecture 48 - Basic Concepts of Probability and Statistics

Lecture 49 - Types of Data Series and Concept of Return Period

Lecture 50 - Introduction to Frequency Analysis

Lecture 51 - Parametric Methods of Frequency Analysis

Lecture 52 - Frequency Analysis with Extreme Value Type-I Distribution

Lecture 53 - Confidence Interval and Standard Error in the Frequency Estimates

Lecture 54 - Various Issues behind Frequency Analysis

Lecture 55 - Basics of Hydrologic Design

Lecture 56 - Risk Analysis to Determine Return Period

Lecture 57 - Hydro-economic Analysis to Determine Return Period

Lecture 58 - Uncertainty in Hydrologic Analysis

Lecture 59 - Estimated Limiting Storm and Design Flood

Lecture 60 - Design Storm

Lecture 61 - Hydrologic Design of Reservoirs: Introduction and Determination of Storage Capacity

Lecture 62 - Determination of Storage Capacity and Models in Reservoir Design