Media Storage Type : DVD-ROM
NPTEL Course Name : Advanced Hydraulics
NPTEL Subject Matter Expert : Dr. C. S. P. Ojha
NPTEL Co-ordinating Institute : IIT Roorkee
NPTEL Lecture Count : 41
Lecture Titles:
Lecture 1 - Classification, types and regimes in Open channel flow
Lecture 2 - Channel geometry
Lecture 3 - Velocity distribution in open channel, Wide-open channel
Lecture 4 - Specific energy and Critical flow
Lecture 5 - Computation of critical flow
Lecture 6 - Momentum in open channel flow, Specific force
Lecture 7 - Qualification of Uniform flow, Velocity measurement
Lecture 8 - Determination of Roughness Coefficient, Normal Depth and Velocity
Lecture 9 - Economical Section, Non Erodible Channels
Lecture 10 - Flow in channel with equivalent roughness, Horton's method of Equivalent roughness estimation. Flow in close conduits with open channel flow
Lecture 11 - Dynamic equations of gradually varied flow and assumptions
Lecture 12 - Draw down and Back water curves, Profile Determination
Lecture 13 - Classification of surface profile
Lecture 14 - Graphical integration, Direct and Standard step method
Lecture 15 - Flow through channel transitions
Lecture 16 - Dynamic equation of spatially varied flow, Spatially varied flow profile
Lecture 17 - Hydraulic jump
Lecture 18 - Types and analysis of hydraulic jump
Lecture 19 - Basic characteristic of jump
Lecture 20 - Length, Profile jump
Lecture 21 - Location of jump
Lecture 22 - Jump as energy dissipation, Control of jump
Lecture 23 - Surges in open channel
Lecture 24 - Sudden transition, Sub-critical flow through sudden transition
Lecture 25 - Flow through culverts
Lecture 26 - Flow through bridge piers and obstruction
Lecture 27 - High flow through bridge pier and obstruction
Lecture 28 - Channel junction
Lecture 29 - Application of momentum principle
Lecture 30 - Impact of jets on plane plates
Lecture 31 - Impact of jets on curved plates
Lecture 32 - Turbines, classification
Lecture 33 - Draft tube and cavitations
Lecture 34 - Performance of turbines, Similarity laws
Lecture 35 - Centrifugal pump
Lecture 36 - Minimum speed to start the pump, Multistage pumps
Lecture 37 - Positive displacement pumps, Reciprocating pump
Lecture 38 - Negative slip, Flow separation conditions
Lecture 39 - Indicator diagram and its variation
Lecture 40 - Savings in work done
Lecture 41 - Jet, Submersible and Rotary pumps