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Hydraulics and Waterworks
Depth of Flow in Flow in Open Channels Formulas
Depth of Flow is the distance from the top or surface of the flow to the bottom of a channel or other waterway or Depth of Flow at the Vertical while measuring Sound Weights. And is denoted by d
f
. Depth of Flow is usually measured using the Meter for Length. Note that the value of Depth of Flow is always positive.
Formulas to find Depth of Flow in Flow in Open Channels
f
x
Depth of Flow given Wetted Area for Parabola
Go
f
x
Depth of Flow given Top Width for Parabola
Go
f
x
Depth of Flow given Hydraulic Depth for Parabola
Go
f
x
Depth of Flow given Section Factor for Parabola
Go
f
x
Depth of Flow given Wetted Area of Triangular Channel Section
Go
f
x
Depth of Flow given Wetted Perimeter of Triangular Channel Section
Go
f
x
Depth of Flow given Total Energy per Unit Weight of Water in Flow Section
Go
f
x
Depth of Flow given Total Energy in Flow Section taking Bed Slope as Datum
Go
f
x
Depth of Flow given Discharge
Go
f
x
Depth of Flow given Discharge through Critical Depth Flume
Go
Flow in Open Channels formulas that make use of Depth of Flow
f
x
Wetted Area
Go
f
x
Top Width given Wetted Area
Go
f
x
Wetted Perimeter for Parabola
Go
f
x
Hydraulic Radius given Width
Go
f
x
Top Width given Hydraulic Radius
Go
f
x
Top Width for Parabola
Go
f
x
Wetted Area given Top Width
Go
f
x
Hydraulic Depth for Parabola
Go
f
x
Top Widths given Section Factor
Go
f
x
Wetted Area of Triangular Channel Section
Go
f
x
Wetted Perimeter of Triangular Channel Section
Go
f
x
Hydraulic Radius of Triangular Channel Section
Go
f
x
Wetted Area of Trapezoidal Channel Section
Go
f
x
Wetted Perimeter of Trapezoidal Channel Section
Go
f
x
Hydraulic Radius of Trapezoidal Channel Section
Go
f
x
Total Energy per unit Weight of Water in Flow Section
Go
f
x
Datum Height for Total Energy per unit Weight of Water in Flow Section
Go
f
x
Mean Velocity of Flow for Total Energy per Unit Weight of Water in Flow Section
Go
f
x
Total Energy per unit Weight of Water in Flow Section considering Bed Slope as Datum
Go
f
x
Mean Velocity of flow given Total Energy in flow section taking Bed Slope as Datum
Go
f
x
Discharge through Area
Go
f
x
Area of Section given Discharge
Go
f
x
Total Energy per unit Weight of Water in Flow Section given Discharge
Go
f
x
Section Factor in open channel
Go
f
x
Discharge through Critical Depth Flume
Go
f
x
Discharge Coefficient given Discharge through Critical Depth Flume
Go
f
x
Width of Throat given Discharge through Critical Depth Flume
Go
List of variables in Flow in Open Channels formulas
f
x
Wetted Surface Area of Parabola
Go
f
x
Top Width
Go
f
x
Hydraulic Depth of Parabolic Channel
Go
f
x
Section Factor of Parabola
Go
f
x
Wetted Surface Area of Channel
Go
f
x
Theta
Go
f
x
Wetted Perimeter of Channel
Go
f
x
Total Energy
Go
f
x
Mean Velocity
Go
f
x
Height above Datum
Go
f
x
Discharge of Channel
Go
f
x
Cross-Sectional Area of Channel
Go
f
x
Width of Throat
Go
f
x
Coefficient of Discharge
Go
FAQ
What is the Depth of Flow?
Depth of Flow is the distance from the top or surface of the flow to the bottom of a channel or other waterway or Depth of Flow at the Vertical while measuring Sound Weights. Depth of Flow is usually measured using the Meter for Length. Note that the value of Depth of Flow is always positive.
Can the Depth of Flow be negative?
No, the Depth of Flow, measured in Length cannot be negative.
What unit is used to measure Depth of Flow?
Depth of Flow is usually measured using the Meter[m] for Length. Millimeter[m], Kilometer[m], Decimeter[m] are the few other units in which Depth of Flow can be measured.
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