Design Berm Elevation given Volume per unit Length of Shoreline Calculator

✖Volume per unit Length of Shoreline is the volume of sediment contained within a cross-sectional area of the beach, per unit length along the shoreline.ⓘ Volume per unit Length of Shoreline [V]			+10% -10%
✖Beach Width is the horizontal distance from the shoreline to a specific point inland which can vary greatly depending on factors such as tide, season, and human intervention.ⓘ Beach Width [W]			+10% -10%
✖Depth of Closure for a characteristic time interval is the most landward depth seaward of which there is no significant change in bottom elevation.ⓘ Depth of Closure [D_c]			+10% -10%

✖Design Berm Elevation is a level space, shelf, or raised barrier (usually made of compacted soil) separating areas vertically, especially part-way up a long slope.ⓘ Design Berm Elevation given Volume per unit Length of Shoreline [B]

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Design Berm Elevation given Volume per unit Length of Shoreline Solution

STEP 0: Pre-Calculation Summary

Formula Used

Design Berm Elevation = ((Volume per unit Length of Shoreline/Beach Width)-Depth of Closure)
B = ((V/W)-D_c)
This formula uses 4 Variables

Variables Used

Design Berm Elevation - (Measured in Meter) - Design Berm Elevation is a level space, shelf, or raised barrier (usually made of compacted soil) separating areas vertically, especially part-way up a long slope.
Volume per unit Length of Shoreline - (Measured in Square Meter) - Volume per unit Length of Shoreline is the volume of sediment contained within a cross-sectional area of the beach, per unit length along the shoreline.
Beach Width - (Measured in Meter) - Beach Width is the horizontal distance from the shoreline to a specific point inland which can vary greatly depending on factors such as tide, season, and human intervention.
Depth of Closure - (Measured in Meter) - Depth of Closure for a characteristic time interval is the most landward depth seaward of which there is no significant change in bottom elevation.

STEP 1: Convert Input(s) to Base Unit

Volume per unit Length of Shoreline: 255 Square Meter --> 255 Square Meter No Conversion Required
Beach Width: 30 Meter --> 30 Meter No Conversion Required
Depth of Closure: 6 Meter --> 6 Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

B = ((V/W)-D_c) --> ((255/30)-6)

Evaluating ... ...

B = 2.5

STEP 3: Convert Result to Output's Unit

2.5 Meter --> No Conversion Required

FINAL ANSWER

2.5 Meter <-- Design Berm Elevation

(Calculation completed in 00.004 seconds)

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< Seawall Trap Ratio Calculators

Volume per unit Length of Shoreline required to produce Beach Width

LaTeX Go Volume per unit Length of Shoreline = Beach Width*(Design Berm Elevation+Depth of Closure)

Active Sediment Volume given Seawall Trap Ratio

LaTeX Go Active Sediment Volume = Wall Trap Volume/Seawall Trap Ratio

Wall Trap Volume given Seawall Trap Ratio

LaTeX Go Wall Trap Volume = Seawall Trap Ratio*Active Sediment Volume

Seawall Trap Ratio

LaTeX Go Seawall Trap Ratio = Wall Trap Volume/Active Sediment Volume

Design Berm Elevation given Volume per unit Length of Shoreline Formula

LaTeX Go

Design Berm Elevation = ((Volume per unit Length of Shoreline/Beach Width)-Depth of Closure)
B = ((V/W)-D_c)

What is a Berm and purpose of Berm?

A berm is a level space, shelf, or raised barrier (usually made of compacted soil) separating areas vertically, especially part-way up a long slope.
Berms prevent off-site sedimentation by diverting runoff to a sediment-trapping device and can also be used to divert clean water from entering a disturbed area. They can also trap sediment by ponding and settling out sheet flow runoff, or by filtering sediment as runoff passes through permeable berms.

What is the Depth of Closure?

The depth of closure for a given or characteristic time interval is the most landward depth seaward of which there is no significant change in bottom elevation and no significant net sediment exchange between the nearshore and the offshore.

How to Calculate Design Berm Elevation given Volume per unit Length of Shoreline?

Design Berm Elevation given Volume per unit Length of Shoreline calculator uses Design Berm Elevation = ((Volume per unit Length of Shoreline/Beach Width)-Depth of Closure) to calculate the Design Berm Elevation, The Design Berm Elevation given Volume per unit Length of Shoreline formula is defined as a level space, shelf, or raised barrier (usually made of compacted soil) separating areas vertically, especially part-way up a long slope. Design Berm Elevation is denoted by B symbol.

How to calculate Design Berm Elevation given Volume per unit Length of Shoreline using this online calculator? To use this online calculator for Design Berm Elevation given Volume per unit Length of Shoreline, enter Volume per unit Length of Shoreline (V), Beach Width (W) & Depth of Closure (D_c) and hit the calculate button. Here is how the Design Berm Elevation given Volume per unit Length of Shoreline calculation can be explained with given input values -> 2.5 = ((255/30)-6).

FAQ

What is Design Berm Elevation given Volume per unit Length of Shoreline?

The Design Berm Elevation given Volume per unit Length of Shoreline formula is defined as a level space, shelf, or raised barrier (usually made of compacted soil) separating areas vertically, especially part-way up a long slope and is represented as B = ((V/W)-D_c) or Design Berm Elevation = ((Volume per unit Length of Shoreline/Beach Width)-Depth of Closure). Volume per unit Length of Shoreline is the volume of sediment contained within a cross-sectional area of the beach, per unit length along the shoreline, Beach Width is the horizontal distance from the shoreline to a specific point inland which can vary greatly depending on factors such as tide, season, and human intervention & Depth of Closure for a characteristic time interval is the most landward depth seaward of which there is no significant change in bottom elevation.

How to calculate Design Berm Elevation given Volume per unit Length of Shoreline?

The Design Berm Elevation given Volume per unit Length of Shoreline formula is defined as a level space, shelf, or raised barrier (usually made of compacted soil) separating areas vertically, especially part-way up a long slope is calculated using Design Berm Elevation = ((Volume per unit Length of Shoreline/Beach Width)-Depth of Closure). To calculate Design Berm Elevation given Volume per unit Length of Shoreline, you need Volume per unit Length of Shoreline (V), Beach Width (W) & Depth of Closure (D_c). With our tool, you need to enter the respective value for Volume per unit Length of Shoreline, Beach Width & Depth of Closure and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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