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Hydraulics

Hydraulics. Instructor: Prof. Arup Kumar Sharma, Department of Civil Engineering, IIT Guwahati. Hydraulics basically deals with flow and conveyance of liquid, principally water. Hydraulic Engineering aims at understanding the physical processes of fluid flow analytically and empirically; expressing these processes mathematically; utilizing these understanding of flowing liquid in the design of various water related structures, devices and systems. (from nptel.ac.in)

Lecture 29 - Design of Alluvial Channel (cont.)


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Introduction to Open Channel Flow
Lecture 01 - Introduction
Lecture 02 - Open Channel Hydraulics
Lecture 03 - Open Channel Hydraulics (cont.)
Lecture 04 - Velocity and Pressure Distribution
Lecture 05 - Practical Use of Velocity Coefficient in Channel Flow
Lecture 06 - Conservation Principles and Governing Equations
Uniform Flow
Lecture 07 - Uniform Flow
Lecture 08 - Uniform Flow Formula
Lecture 09 - Computation of Uniform Flow
Lecture 10 - Computation of Uniform Flow (cont.)
Lecture 11 - Uniform Flow in Mobile Boundary Channel
Lecture 12 - Incipient Motion Condition and Regime of Flow
Energy and Momentum Principle
Lecture 13 - Concept of Specific Energy
Lecture 14 - Computation of Critical Depth
Lecture 15 - Specific Force, Critical Depth and Sequent Depth
Gradually Varied Flow
Lecture 16 - Non-uniform Flow: Gradually Varied Flow
Lecture 17 - Classification of Gradually Varied Flow
Lecture 18 - Characteristics of Gradually Varied Flow
Lecture 19 - Characteristics of Gradually Varied Flow and its Computation
Lecture 20 - Gradually Varied Flow and its Computation
Lecture 21 - Computation of Gradually Varied Flow
Lecture 22 - Gradually Varied Flow: Numerical Methods and Problem Solving
Rapidly Varied Flow
Lecture 23 - Rapidly Varied Flow: Hydraulic Jump
Lecture 24 - Hydraulic Jump
Lecture 25 - Flow over Hump and Channel Contraction
Canal Design
Lecture 26 - Canal Design
Lecture 27 - Canal Design (cont.)
Lecture 28 - Design of Alluvial Channel
Lecture 29 - Design of Alluvial Channel (cont.)
Lecture 30 - Design of Alluvial Channel (cont.)
Unsteady Flow
Lecture 31 - Unsteady Flow: Waves and its Classification
Lecture 32 - Unsteady Flow (cont.)
Lecture 33 - Unsteady Flow (cont.)
Pipe Flow
Lecture 34 - Pipe Flow: Friction Loss
Lecture 35 - Pipe Flow: Losses in Pipes
Lecture 36 - Pipe in Series and Parallel
Lecture 37 - Pipe Network Analysis
Lecture 38 - Water Hammer and Surge Tank
Hydraulic Model Study
Lecture 39 - Pipe Flow: Friction Loss
Lecture 40 - Pipe Flow: Losses in Pipe