Contents [In
the name of Allah]
1.
Introduction
2.
Fluid
properties
2.1
Introduction
2.2
Fluid
properties
2.3
Problems
3.
Fluid
statics
3.1
Introduction
3.2
Pressure
variation with elevation (depth)
3.3
Hydrostatic
force (thrust or pressure)
3.3.1
Plane
surfaces
3.3.2
Curved
surfaces
3.4
Boyancy
3.5
Problems
4.
Hydrodynamics
4.1
Introduction
4.2
Two
kinds of flow
4.3
Continuity
equation
4.4
Equation
of motion (energy equation) for an ideal, steady irrotational
fluid flow
4.5
Momentum
equation
4.6
A
real fluid flow
4.7
Energy
losses
4.8
Problems
5.
Open
channel flows
5.1
Introduction
5.2
Steady
uniform flow
5.3
Boundary
layer (d)
5.4
Boundary
roughness
5.5
Velocity
distribution
5.6
Bed
shear (tb) & shear velocity (
): computations by profile
measurements
5.7
Secondary
flow
5.8
Resistance
equation (any channel)
5.9
Types
of channel flow
5.10
Nonuniform flow-gradually varied flow
5.11
Unsteady
nonuniform (gradually varied) flow
5.12
Worked
examples
5.13
Problems
6.
Sediment
(bed) movement
6.1
Fluid
viscosity
6.2
Viscocity of dilute suspentions
(fluid mixed with sediments)
6.3
Sediment
properties
6.4
Fall
velocities
6.5
Initiation
of movement
6.6
Bed
forms influences-ripples and dunes
6.7
Design
of stable channels
6.8
Worked
examples
6.9
Problems
7.
Bed
forms (sand beds) and bed roughness
7.1
Bed
forms
7.2
Bed
form dimensions
7.3
Effective
bed roughness
7.4
Worked
examples
7.5
Problems
8.
Sediment
transport
8.1
Modes
of particle motion
8.2
Types
of load
8.2.1
Bed
load transport
8.2.2
Suspended
load transport
8.3
Total
transport
8.4
Transport
measurements
8.5
Worked
example
8.6
Problems
9.
Basics
of transport modeling
9.1
Introduction
9.2
Mathematical
formulations
9.2.1
Flow
fields
9.2.2
Wave
fields
9.2.3
Transport
9.2.4
Morphological
developments
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