Media Storage Type : DVD-ROM
NPTEL Course Name : Hydraulics
NPTEL Subject Matter Expert : Prof. B.S. Murty
NPTEL Co-ordinating Institute : IIT Madras
NPTEL Lecture Count : 142
Lecture Titles:
Lecture 1 - Free Surface Flows - Introduction
Lecture 2 - Historical Development of Hydraulics
Lecture 3 - History of Hydraulics in India
Lecture 4 - Classification of Flow
Lecture 5 - Channels and their Geometric Properties
Lecture 6 - Examples
Lecture 7 - Pipe Flow and Free Surface Flow
Lecture 8 - Continuity Equation
Lecture 9 - Energy in Free Surface Flow
Lecture 10 - Basic Momentum Equation
Lecture 11 - Velocity Measurement and Distribution
Lecture 12 - Discharge Measurement by Velocity-area Method
Lecture 13 - Radio-active tracer technique for Measurement of River Discharges
Lecture 14 - Measurement of Flow of Water and the Limitations of Velocity-area Method
Lecture 15 - Errors in Depth Measurement in High Velocity Flows
Lecture 16 - Secondary Current and Spiral Flow
Lecture 17 - Energy and Momentum Coefficients-Derivation
Lecture 18 - Energy and Momentum Coefficients for Different Velocity Distributions
Lecture 19 - Energy vs. Momentum Equation
Lecture 20 - Pressure Distribution
Lecture 21 - Specific Energy Equations for Rectangular Channels
Lecture 22 - Application of Specific Energy
Lecture 23 - Problems
Lecture 24 - Specific Force
Lecture 25 - Transition-Problems
Lecture 26 - Application of Specific Force and Specific Energy
Lecture 27 - Transition in Field
Lecture 28 - Characteristics of Critical Flow
Lecture 29 - Occurrence of Critical Flow
Lecture 30 - Critical Depth in Trapezoidal & Circular Channels
Lecture 31 - Hydraulic Exponent for Critical Flow
Lecture 32 - Problem
Lecture 33 - Critical Flow Depth Computations
Lecture 34 - Problems
Lecture 35 - Measuring Flumes
Lecture 36 - Critical Depth Flumes
Lecture 37 - Weir's-Introduction
Lecture 38 - Types of Control Structures
Lecture 39 - Proportional Weirs
Lecture 40 - Flow Over Weirs
Lecture 41 - Polygonal Weirs
Lecture 42 - Special types of weirs
Lecture 43 - Broad Crested Weirs
Lecture 44 - Types of Broad Crested Weirs
Lecture 45 - Bear Trap Weir
Lecture 46 - Flow below a Sluice Gate
Lecture 47 - Brink Depth
Lecture 48 - Modern Measurements of Flow Measurements
Lecture 49 - Outlets and Modules
Lecture 50 - Errors in Measurement
Lecture 51 - International Standards for Flow Measurement in Open Channel
Lecture 52 - Concept of Uniform Flow
Lecture 53 - Derivation of Uniform Flow Equations
Lecture 54 - Resistance in Open Channel Hydraulics
Lecture 55 - History of Uniform Flow Velocity and Resistance Factor
Lecture 56 - Friction
Lecture 57 - Ganguillet and Kutter Formula
Lecture 58 - Conveyance
Lecture 59 - Section Factor for Uniform Flow Computation
Lecture 60 - Hydraulic Exponent for Uniform Flow Computation
Lecture 61 - Maximum Discharge
Lecture 62 - Classification of Bed slope
Lecture 63 - Computations
Lecture 64 - Problems-Maximum Discharge
Lecture 65 - Problem-Irregular Channel
Lecture 66 - Solution of algebraic or Transcendental Equation by Bisection Method
Lecture 67 - Solution of Manning Equation by Newton Raphson Method
Lecture 68 - Slope Area Method
Lecture 69 - Normal and Critical Slope
Lecture 70 - Design of Canals
Lecture 71 - Typical Canal Cross Sections
Lecture 72 - Canal Lining
Lecture 73 - Seepage Prevention with Impermeable membranes
Lecture 74 - Failure of Canal Lining
Lecture 75 - Most Efficient Hydraulic Section
Lecture 76 - Design of Unlined Channels
Lecture 77 - Examples and Problems
Lecture 78 - Introduction
Lecture 79 - Dynamic Equation for Steady Gradually Varied Flow
Lecture 80 - Classification of Gradually Varied Flow Profiles
Lecture 81 - Real Life Cases of Water Surface Profiles
Lecture 82 - Sketching of Composite Water Surface Profiles
Lecture 83 - Examples
Lecture 84 - Computation of Gradually Varied Flow
Lecture 85 - Example
Lecture 86 - Standard Step Method
Lecture 87 - Example
Lecture 88 - Integration of Differential Equation
Lecture 89 - Improved Euler Method
Lecture 90 - Fourth Order R-K Method
Lecture 91 - HEC-2
Lecture 92 - Normal Hydraulic Jump
Lecture 93 - Classification of Jumps
Lecture 94 - Momentum Equation
Lecture 95 - General Hydraulic Jump Equation
Lecture 96 - Energy Loss in the Jump
Lecture 97 - Turbulent Characteristics of the Jump
Lecture 98 - Pressure Distribution in the Jump
Lecture 99 - Velocity Distribution in Hydraulic Jump
Lecture 100 - Length of the Jump
Lecture 101 - Air Entrainment Characteristics of the Jump
Lecture 102 - Pre Entrained Hydraulic Jump
Lecture 103 - Air Concentration Distribution along the Jump
Lecture 104 - Decay of Turbulence Downstream from a Stilling Basin
Lecture 105 - Hydraulic Jumps in Sloping Channels
Lecture 106 - Sequent Depth Tail Water Relationship Stilling Basin
Lecture 107 - Baffle Stilling Basin
Lecture 108 - Bhavani Type Stilling Basin
Lecture 109 - Stilling Basin in Sudden Expansion
Lecture 110 - Slotted Bucket Stilling Basin
Lecture 111 - Spillways -1
Lecture 112 - Siphon Spillways/Morning Glory Spillways
Lecture 113 - Chute Spillway
Lecture 114 - Stepped Spillway
Lecture 115 - Introduction
Lecture 116 - Classification of River Bends
Lecture 117 - Transverse Water Surface Slope in Bends
Lecture 118 - Superrelevation
Lecture 119 - Velocity Distribution in Bends
Lecture 120 - Introduction
Lecture 121 - Basic Terminology
Lecture 122 - Classification of Waves
Lecture 123 - Ocean Waves
Lecture 124 - Tides
Lecture 125 - Nature of Waves
Lecture 126 - Surge Computation
Lecture 127 - Example 1
Lecture 128 - Example 2
Lecture 129 - Gradually Varied Unsteady Flow
Lecture 130 - Celerity
Lecture 131 - Method Of Characteristics
Lecture 132 - Method of Specified Intervals
Lecture 133 - Dambreak Problem
Lecture 134 - History of Dam Failures
Lecture 135 - Causes of Dam Failures
Lecture 136 - Routing
Lecture 137 - Case Study-Dam Break Analysis for Kali River
Lecture 138 - Self Aerated Flow-Definition of Terms and Instrumentation
Lecture 139 - Characteristics of Self Aerated Flows
Lecture 140 - Measurement in Self Aerated Flows
Lecture 141 - Experimental Investigation
Lecture 142 - Bhakra Dam SpillwayA Case Study