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Entrance Energy Loss Coefficient given Inlet Impedance Formula

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Entrance Energy Loss Coefficient [dimensionless] The loss coefficient (ζ) is a dimensionless number (characteristic coefficient) to calculate the head loss. Check FAQs
Ken=Z-Kex-(fL4rH)
Ken - Entrance Energy Loss Coefficient?Z - Inlet Impedance?Kex - Exit Energy Loss Coefficient?f - Dimensionless Parameter?L - Inlet Length?rH - Hydraulic Radius?

Entrance Energy Loss Coefficient given Inlet Impedance Example

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Here is how the Entrance Energy Loss Coefficient given Inlet Impedance equation looks like with Values.

Here is how the Entrance Energy Loss Coefficient given Inlet Impedance equation looks like with Units.

Here is how the Entrance Energy Loss Coefficient given Inlet Impedance equation looks like.

1.0096Edit=2.246Edit-0.1Edit-(0.03Edit50Edit40.33Edit)
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Entrance Energy Loss Coefficient given Inlet Impedance Solution

Follow our step by step solution on how to calculate Entrance Energy Loss Coefficient given Inlet Impedance?

FIRST Step Consider the formula
Ken=Z-Kex-(fL4rH)
Next Step Substitute values of Variables
Ken=2.246-0.1-(0.0350m40.33m)
Next Step Prepare to Evaluate
Ken=2.246-0.1-(0.035040.33)
Next Step Evaluate
Ken=1.00963636363636
LAST Step Rounding Answer
Ken=1.0096

Entrance Energy Loss Coefficient given Inlet Impedance Formula Elements

Variables
Entrance Energy Loss Coefficient
Entrance Energy Loss Coefficient [dimensionless] The loss coefficient (ζ) is a dimensionless number (characteristic coefficient) to calculate the head loss.
Symbol: Ken
Measurement: NAUnit: Unitless
Note: Value can be positive or negative.
Formulas to find Entrance Energy Loss CoefficientOpen Variable
Inlet Impedance
Inlet Impedance is measure of opposition to airflow at an inlet, influences performance and efficiency of fluid systems.
Symbol: Z
Measurement: NAUnit: Unitless
Note: Value can be positive or negative.
Formulas to find Inlet ImpedanceOpen Variable
Exit Energy Loss Coefficient
Exit Energy Loss Coefficient [dimensionless] is a dimensionless number (characteristic coefficient) to calculate the head loss.
Symbol: Kex
Measurement: NAUnit: Unitless
Note: Value can be positive or negative.
Formulas to find Exit Energy Loss CoefficientOpen Variable
Dimensionless Parameter
Dimensionless Parameter is a numerical value without units used to express ratios, similarities, or relationships between physical quantities.
Symbol: f
Measurement: NAUnit: Unitless
Note: Value can be positive or negative.
Formulas to find Dimensionless ParameterOpen Variable
Inlet Length
Inlet Length is the length of a narrow water passage between peninsulas or through a barrier island leading to a bay or lagoon.
Symbol: L
Measurement: LengthUnit: m
Note: Value can be positive or negative.
Formulas to find Inlet LengthOpen Variable
Hydraulic Radius
Hydraulic Radius is the ratio of the cross-sectional area of a channel or pipe in which a fluid is flowing to the wet perimeter of the conduit.
Symbol: rH
Measurement: LengthUnit: m
Note: Value can be positive or negative.
Formulas to find Hydraulic RadiusOpen Variable

Other formulas in Inlet Currents and Tidal Elevations category

​Go Average Velocity in Channel for Flow through Inlet into Bay
Vavg=AbdBayAavg
​Go Average Area over Channel Length for Flow through Inlet into Bay
Aavg=AbdBayVavg
​Go Surface Area of Bay for Flow through Inlet into Bay
Ab=VavgAavgdBay
​Go Change of Bay Elevation with Time for Flow through Inlet into Bay
dBay=AavgVavgAb

How to Evaluate Entrance Energy Loss Coefficient given Inlet Impedance?

Entrance Energy Loss Coefficient given Inlet Impedance evaluator uses Entrance Energy Loss Coefficient = Inlet Impedance-Exit Energy Loss Coefficient-(Dimensionless Parameter*Inlet Length/(4*Hydraulic Radius)) to evaluate the Entrance Energy Loss Coefficient, The Entrance Energy Loss Coefficient given Inlet Impedance is a dimensionless number (characteristic coefficient) to calculate the head loss (HL) (see Pressure loss): v Characteristic flow velocity in the relevant hydraulic component (usually the flow velocity in the. cross-section of the connection downstream of the component). Entrance Energy Loss Coefficient is denoted by Ken symbol.

How to evaluate Entrance Energy Loss Coefficient given Inlet Impedance using this online evaluator? To use this online evaluator for Entrance Energy Loss Coefficient given Inlet Impedance, enter Inlet Impedance (Z), Exit Energy Loss Coefficient (Kex), Dimensionless Parameter (f), Inlet Length (L) & Hydraulic Radius (rH) and hit the calculate button.

FAQs on Entrance Energy Loss Coefficient given Inlet Impedance

What is the formula to find Entrance Energy Loss Coefficient given Inlet Impedance?
The formula of Entrance Energy Loss Coefficient given Inlet Impedance is expressed as Entrance Energy Loss Coefficient = Inlet Impedance-Exit Energy Loss Coefficient-(Dimensionless Parameter*Inlet Length/(4*Hydraulic Radius)). Here is an example- 1.009636 = 2.246-0.1-(0.03*50/(4*0.33)).
How to calculate Entrance Energy Loss Coefficient given Inlet Impedance?
With Inlet Impedance (Z), Exit Energy Loss Coefficient (Kex), Dimensionless Parameter (f), Inlet Length (L) & Hydraulic Radius (rH) we can find Entrance Energy Loss Coefficient given Inlet Impedance using the formula - Entrance Energy Loss Coefficient = Inlet Impedance-Exit Energy Loss Coefficient-(Dimensionless Parameter*Inlet Length/(4*Hydraulic Radius)).
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