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Discharge given Detention Time for Circular Tank Formula

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Discharge in Tank is the volumetric flow rate of water that is transported through a given cross-sectional area. It includes any suspended solids, dissolved chemicals, or biologic material. Check FAQs

Q d = ({(D)}^{2}) \cdot (\frac{(0.011 \cdot D) + (0.785 \cdot d)}{T d})

Q_d - Discharge in Tank?D - Diameter?d - Depth?T_d - Detention Time?

Discharge given Detention Time for Circular Tank Example

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Here is how the Discharge given Detention Time for Circular Tank equation looks like with Values.

Here is how the Discharge given Detention Time for Circular Tank equation looks like with Units.

Here is how the Discharge given Detention Time for Circular Tank equation looks like.

8.04 = ({(4.8)}^{2}) \cdot (\frac{(0.011 \cdot 4.8) + (0.785 \cdot 3)}{6.9})

8.04m³/s = ({(4.8m)}^{2}) \cdot (\frac{(0.011 \cdot 4.8m) + (0.785 \cdot 3m)}{6.9s})

8.04 = ({(4.8)}^{2}) \cdot (\frac{(0.011 \cdot 4.8) + (0.785 \cdot 3)}{6.9})

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Discharge given Detention Time for Circular Tank Solution

Follow our step by step solution on how to calculate Discharge given Detention Time for Circular Tank?

FIRST Step Consider the formula

Q d = ({(D)}^{2}) \cdot (\frac{(0.011 \cdot D) + (0.785 \cdot d)}{T d})

Next Step Substitute values of Variables

∴

Q d = ({(4.8m)}^{2}) \cdot (\frac{(0.011 \cdot 4.8m) + (0.785 \cdot 3m)}{6.9s})

Next Step Prepare to Evaluate

∴

Q d = ({(4.8)}^{2}) \cdot (\frac{(0.011 \cdot 4.8) + (0.785 \cdot 3)}{6.9})

Next Step Evaluate

∴

Q d = 8.03995826086956m³/s

LAST Step Rounding Answer

∴

Q d = 8.04m³/s

Discharge given Detention Time for Circular Tank Formula Elements

Variables

Discharge in Tank

Discharge in Tank is the volumetric flow rate of water that is transported through a given cross-sectional area. It includes any suspended solids, dissolved chemicals, or biologic material.

Symbol: Q_d

Measurement: Volumetric Flow RateUnit: m³/s

Note: Value should be greater than 0.

Formulas to find Discharge in Tank

Diameter

Diameter is the straight-line distance passing through the center of a circular cross-section, connecting two points on its boundary.

Symbol: D

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Diameter

Depth

Depth is the vertical distance from the surface of a reference point, such as the ground or water surface, to a specific point or feature below.

Symbol: d

Measurement: LengthUnit: m

Note: Value can be positive or negative.

Formulas to find Depth

Detention Time

Detention Time is the length of time the water is retained in a vessel or basin.

Symbol: T_d

Measurement: TimeUnit: s

Note: Value should be greater than 0.

Formulas to find Detention Time

Other formulas in Discharge in Tank category

Go Overflow Rate given Discharge

SOR = \frac{Q}{w \cdot L}

Go Rate of Flow given Detention Time

q flow = (\frac{V}{T d})

Go Volume of Tank given Detention Time

V = T d \cdot q flow

Go Cross-section Area of Tank with known Velocity of Flow of Water

A cs = \frac{Q}{V w}

How to Evaluate Discharge given Detention Time for Circular Tank?

Discharge given Detention Time for Circular Tank evaluator uses Discharge in Tank = ((Diameter)^2)*(((0.011*Diameter)+(0.785*Depth))/Detention Time) to evaluate the Discharge in Tank, The Discharge given Detention Time for Circular Tank formula is defined as the calculation of the volumetric flow rate of fluid (usually water) entering a basin or tank, based on the detention time of the circular tank. Discharge in Tank is denoted by Q_d symbol.

How to evaluate Discharge given Detention Time for Circular Tank using this online evaluator? To use this online evaluator for Discharge given Detention Time for Circular Tank, enter Diameter (D), Depth (d) & Detention Time (T_d) and hit the calculate button.

FAQs on Discharge given Detention Time for Circular Tank

What is the formula to find Discharge given Detention Time for Circular Tank?

The formula of Discharge given Detention Time for Circular Tank is expressed as Discharge in Tank = ((Diameter)^2)*(((0.011*Diameter)+(0.785*Depth))/Detention Time). Here is an example- 8.039958 = ((4.8)^2)*(((0.011*4.8)+(0.785*3))/6.9).

How to calculate Discharge given Detention Time for Circular Tank?

With Diameter (D), Depth (d) & Detention Time (T_d) we can find Discharge given Detention Time for Circular Tank using the formula - Discharge in Tank = ((Diameter)^2)*(((0.011*Diameter)+(0.785*Depth))/Detention Time).

Can the Discharge given Detention Time for Circular Tank be negative?

No, the Discharge given Detention Time for Circular Tank, measured in Volumetric Flow Rate cannot be negative.

Which unit is used to measure Discharge given Detention Time for Circular Tank?

Discharge given Detention Time for Circular Tank is usually measured using the Cubic Meter per Second[m³/s] for Volumetric Flow Rate. Cubic Meter per Day[m³/s], Cubic Meter per Hour[m³/s], Cubic Meter per Minute[m³/s] are the few other units in which Discharge given Detention Time for Circular Tank can be measured.

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Discharge given Detention Time for Circular Tank Formula

Discharge given Detention Time for Circular Tank Example

Discharge given Detention Time for Circular Tank Solution

Discharge given Detention Time for Circular Tank Formula Elements

Other formulas in Discharge in Tank category

How to Evaluate Discharge given Detention Time for Circular Tank?

FAQs on Discharge given Detention Time for Circular Tank

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