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Energy Dissipation Rate per unit Surface Area due to Wave Breaking Formula

GoEnergy Dissipation Rate by Battjes and Janssen Formula

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Energy Dissipation Rate per unit Surface Area is the amount of energy lost by the viscous forces per unit surface area. Check FAQs

δ = (\frac{K d}{d}) \cdot ((E'' \cdot C g) - (E f))

δ - Energy Dissipation Rate per unit Surface Area?K_d - Decay Coefficient?d - Water Depth?E^'' - Wave Energy?C_g - Wave Group Speed?E_f - Energy Flux associated with Stable Wave Height?

Energy Dissipation Rate per unit Surface Area due to Wave Breaking Example

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Here is how the Energy Dissipation Rate per unit Surface Area due to Wave Breaking equation looks like with Values.

Here is how the Energy Dissipation Rate per unit Surface Area due to Wave Breaking equation looks like with Units.

Here is how the Energy Dissipation Rate per unit Surface Area due to Wave Breaking equation looks like.

18376.3333 = (\frac{10.15}{1.05}) \cdot ((20 \cdot 100) - (99))

18376.3333 = (\frac{10.15}{1.05m}) \cdot ((20J/m² \cdot 100m/s) - (99))

18376.3333 = (\frac{10.15}{1.05}) \cdot ((20 \cdot 100) - (99))

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Energy Dissipation Rate per unit Surface Area due to Wave Breaking Solution

Follow our step by step solution on how to calculate Energy Dissipation Rate per unit Surface Area due to Wave Breaking?

FIRST Step Consider the formula

δ = (\frac{K d}{d}) \cdot ((E'' \cdot C g) - (E f))

Next Step Substitute values of Variables

∴

δ = (\frac{10.15}{1.05m}) \cdot ((20J/m² \cdot 100m/s) - (99))

Next Step Prepare to Evaluate

∴

δ = (\frac{10.15}{1.05}) \cdot ((20 \cdot 100) - (99))

Next Step Evaluate

∴

δ = 18376.3333333333

LAST Step Rounding Answer

∴

δ = 18376.3333

Energy Dissipation Rate per unit Surface Area due to Wave Breaking Formula Elements

Variables

Energy Dissipation Rate per unit Surface Area

Energy Dissipation Rate per unit Surface Area is the amount of energy lost by the viscous forces per unit surface area.

Symbol: δ

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Energy Dissipation Rate per unit Surface Area

Decay Coefficient

Decay Coefficient is the loss in cell mass due to the oxidation of internal storage products for energy for cell maintenance.

Symbol: K_d

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Decay Coefficient

Water Depth

Water Depth of the considered catchment is the depth as measured from the water level to the bottom of the considered water body.

Symbol: d

Measurement: LengthUnit: m

Note: Value can be positive or negative.

Formulas to find Water Depth

Wave Energy

Wave Energy is the ratio of power per unit crest length to wave group speed.

Symbol: E^''

Measurement: Heat DensityUnit: J/m²

Note: Value should be greater than 0.

Formulas to find Wave Energy

Wave Group Speed

Wave Group Speed of a wave is the velocity with which the overall envelope shape of the wave's amplitudes.

Symbol: C_g

Measurement: SpeedUnit: m/s

Note: Value should be greater than 0.

Formulas to find Wave Group Speed

Energy Flux associated with Stable Wave Height

Energy Flux associated with Stable Wave Height is the rate of transfer of energy through a surface.

Symbol: E_f

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Energy Flux associated with Stable Wave Height

Other Formulas to find Energy Dissipation Rate per unit Surface Area

Go Energy Dissipation Rate by Battjes and Janssen

δ = 0.25 \cdot ρ water \cdot [g] \cdot Q B \cdot f m \cdot ({H max}^{2})

Other formulas in Energy Flux Method category

Go Energy Flux associated with Stable Wave Height

E f' = E'' \cdot C g

Go Water Depth given Energy Dissipation Rate per unit Surface Area due to Wave Breaking

d = K d \cdot \frac{E'' \cdot C g - (E f)}{δ}

Go Stable Wave Height

H stable = 0.4 \cdot d

Go Water Depth given Stable Wave Height

d = \frac{H stable}{0.4}

How to Evaluate Energy Dissipation Rate per unit Surface Area due to Wave Breaking?

Energy Dissipation Rate per unit Surface Area due to Wave Breaking evaluator uses Energy Dissipation Rate per unit Surface Area = (Decay Coefficient/Water Depth)*((Wave Energy*Wave Group Speed)-(Energy Flux associated with Stable Wave Height)) to evaluate the Energy Dissipation Rate per unit Surface Area, The Energy Dissipation Rate per unit Surface Area due to Wave Breaking formula is defined as determining the amount of energy lost by the viscous forces in the turbulent flow. Energy Dissipation Rate per unit Surface Area is denoted by δ symbol.

How to evaluate Energy Dissipation Rate per unit Surface Area due to Wave Breaking using this online evaluator? To use this online evaluator for Energy Dissipation Rate per unit Surface Area due to Wave Breaking, enter Decay Coefficient (K_d), Water Depth (d), Wave Energy (E^''), Wave Group Speed (C_g) & Energy Flux associated with Stable Wave Height (E_f) and hit the calculate button.

FAQs on Energy Dissipation Rate per unit Surface Area due to Wave Breaking

What is the formula to find Energy Dissipation Rate per unit Surface Area due to Wave Breaking?

The formula of Energy Dissipation Rate per unit Surface Area due to Wave Breaking is expressed as Energy Dissipation Rate per unit Surface Area = (Decay Coefficient/Water Depth)*((Wave Energy*Wave Group Speed)-(Energy Flux associated with Stable Wave Height)). Here is an example- 18376.33 = (10.15/1.05)*((20*100)-(99)).

How to calculate Energy Dissipation Rate per unit Surface Area due to Wave Breaking?

With Decay Coefficient (K_d), Water Depth (d), Wave Energy (E^''), Wave Group Speed (C_g) & Energy Flux associated with Stable Wave Height (E_f) we can find Energy Dissipation Rate per unit Surface Area due to Wave Breaking using the formula - Energy Dissipation Rate per unit Surface Area = (Decay Coefficient/Water Depth)*((Wave Energy*Wave Group Speed)-(Energy Flux associated with Stable Wave Height)).

What are the other ways to Calculate Energy Dissipation Rate per unit Surface Area?

Here are the different ways to Calculate Energy Dissipation Rate per unit Surface Area-

Energy Dissipation Rate per unit Surface Area=0.25*Water Density*[g]*Percentage of Waves Breaking*Mean Wave Frequency*(Maximum Wave Height^2)

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Energy Dissipation Rate per unit Surface Area due to Wave Breaking Formula

​GoEnergy Dissipation Rate by Battjes and Janssen Formula

Energy Dissipation Rate per unit Surface Area due to Wave Breaking Example

Energy Dissipation Rate per unit Surface Area due to Wave Breaking Solution

Energy Dissipation Rate per unit Surface Area due to Wave Breaking Formula Elements

Other Formulas to find Energy Dissipation Rate per unit Surface Area

Other formulas in Energy Flux Method category

How to Evaluate Energy Dissipation Rate per unit Surface Area due to Wave Breaking?

FAQs on Energy Dissipation Rate per unit Surface Area due to Wave Breaking

Variable Name

GoEnergy Dissipation Rate by Battjes and Janssen Formula