VSS as Mass Flow Rate given Weight of Oxygen Required Calculator

✖Weight of oxygen required to destroy the Volatile suspended solids.ⓘ Weight of oxygen [W_O2]			+10% -10%
✖Volatile suspended solid weight means weight of the vss.ⓘ Volatile suspended solid weight [VSS_w]			+10% -10%
✖Weight of initial oxygen means the oxygen which is already present in the solution.ⓘ Weight of initial oxygen [W_i]			+10% -10%

✖Volume of suspended solid as mass flow rate.ⓘ VSS as Mass Flow Rate given Weight of Oxygen Required [VSS]

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Formula

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VSS as Mass Flow Rate given Weight of Oxygen Required

Formula

`"VSS" = ("W"_{"O2"}*"VSS"_{"w"})/(2.3*"W"_{"i"})`

Example

`"469565.2kg/d"=("5kg"*"5kg")/(2.3*"2kg")`

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VSS as Mass Flow Rate given Weight of Oxygen Required Solution

STEP 0: Pre-Calculation Summary

Formula Used

Volume of suspended solid = (Weight of oxygen*Volatile suspended solid weight)/(2.3*Weight of initial oxygen)
VSS = (W_O2*VSS_w)/(2.3*W_i)
This formula uses 4 Variables

Variables Used

Volume of suspended solid - (Measured in Kilogram per Second) - Volume of suspended solid as mass flow rate.
Weight of oxygen - (Measured in Kilogram) - Weight of oxygen required to destroy the Volatile suspended solids.
Volatile suspended solid weight - (Measured in Kilogram) - Volatile suspended solid weight means weight of the vss.
Weight of initial oxygen - (Measured in Kilogram) - Weight of initial oxygen means the oxygen which is already present in the solution.

STEP 1: Convert Input(s) to Base Unit

Weight of oxygen: 5 Kilogram --> 5 Kilogram No Conversion Required
Volatile suspended solid weight: 5 Kilogram --> 5 Kilogram No Conversion Required
Weight of initial oxygen: 2 Kilogram --> 2 Kilogram No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

VSS = (W_O2*VSS_w)/(2.3*W_i) --> (5*5)/(2.3*2)

Evaluating ... ...

VSS = 5.43478260869565

STEP 3: Convert Result to Output's Unit

5.43478260869565 Kilogram per Second -->469565.217391304 Kilogram per Day (Check conversion here)

FINAL ANSWER

469565.217391304 ≈ 469565.2 Kilogram per Day <-- Volume of suspended solid

(Calculation completed in 00.004 seconds)

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Home » Engineering » Civil » Environmental Engineering » Design of an Aerobic Digester » VSS as Mass Flow Rate given Weight of Oxygen Required

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Created by Suraj Kumar

Birsa Institute of Technology (BIT), Sindri

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Meerut Institute of Engineering and Technology (MIET), Meerut

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< 15 Design of an Aerobic Digester Calculators

Solids Retention Time given Volume of Aerobic Digester

Go Solids retention time = ((Influent average flow rate*Influent suspended solids)/(Volume of Aerobic Digester*Digester total suspended solids)-(Reaction rate constant*Volatile fraction))

Volume of Aerobic Digester

Go Volume of Aerobic Digester = (Influent average flow rate*Influent suspended solids)/(Digester total suspended solids*((Reaction rate constant*Volatile fraction)+Solids retention time))

Digester Total Suspended Solids given Volume of Aerobic Digester

Go Digester total suspended solids = (Influent average flow rate*Influent suspended solids)/(Volume of Aerobic Digester*(Reaction rate constant*Volatile fraction+Solids retention time))

Specific Gravity of Digested Sludge given Volume of Digested Sludge

Go Specific Gravity of Sludge = (Weight of sludge)/(Water Density*Sludge Volume*Percent Solids)

Density of Water given Volume of Digested Sludge

Go Water Density = (Weight of sludge)/(Sludge Volume*Specific Gravity of Sludge*Percent Solids)

Percent Solids given Volume of Digested Sludge

Go Percent Solids = (Weight of sludge)/(Sludge Volume*Water Density*Specific Gravity of Sludge)

Volume of Digested Sludge

Go Sludge Volume = (Weight of sludge)/(Water Density*Specific Gravity of Sludge*Percent Solids)

Weight of Sludge given Volume of Digested Sludge

Go Weight of sludge = (Water Density*Sludge Volume*Specific Gravity of Sludge*Percent Solids)

Initial Weight of Oxygen given Weight of Oxygen Required

Go Weight of initial oxygen = (Weight of oxygen*Volatile suspended solid weight)/(Volume of suspended solid*2.3)

VSS as Mass Flow Rate given Weight of Oxygen Required

Go Volume of suspended solid = (Weight of oxygen*Volatile suspended solid weight)/(2.3*Weight of initial oxygen)

Weight of VSS given Weight of Oxygen Required

Go Volatile suspended solid weight = (Volume of suspended solid*2.3*Weight of initial oxygen)/Weight of oxygen

Weight of Oxygen Required to Destroy VSS

Go Weight of oxygen = (Volume of suspended solid*2.3*Weight of initial oxygen)/Volatile suspended solid weight

Volume of Air Required at Standard Conditions

Go Volume of Air = (Weight of oxygen)/(Density of Air*0.232)

Density of Air given Volume of Air Required

Go Density of Air = (Weight of oxygen)/(Volume of Air*0.232)

Weight of Oxygen given Volume of Air

Go Weight of oxygen = (Volume of Air*Density of Air*0.232)

VSS as Mass Flow Rate given Weight of Oxygen Required Formula

Volume of suspended solid = (Weight of oxygen*Volatile suspended solid weight)/(2.3*Weight of initial oxygen)
VSS = (W_O2*VSS_w)/(2.3*W_i)

What is mass flow rate ?

The mass flow rate is the mass of a liquid substance passing per unit time. In other words, the mass flow rate is defined as the rate of movement of liquid pass through a unit area. The mass flow is directly dependent on the density, velocity of the liquid, and area of cross-section.

How to Calculate VSS as Mass Flow Rate given Weight of Oxygen Required?

VSS as Mass Flow Rate given Weight of Oxygen Required calculator uses Volume of suspended solid = (Weight of oxygen*Volatile suspended solid weight)/(2.3*Weight of initial oxygen) to calculate the Volume of suspended solid, VSS as Mass Flow Rate given Weight of Oxygen Required calculates volume of suspended solids when we have prior information of other parameters . Volume of suspended solid is denoted by VSS symbol.

How to calculate VSS as Mass Flow Rate given Weight of Oxygen Required using this online calculator? To use this online calculator for VSS as Mass Flow Rate given Weight of Oxygen Required, enter Weight of oxygen (W_O2), Volatile suspended solid weight (VSS_w) & Weight of initial oxygen (W_i) and hit the calculate button. Here is how the VSS as Mass Flow Rate given Weight of Oxygen Required calculation can be explained with given input values -> 4.1E+10 = (5*5)/(2.3*2).

FAQ

What is VSS as Mass Flow Rate given Weight of Oxygen Required?

VSS as Mass Flow Rate given Weight of Oxygen Required calculates volume of suspended solids when we have prior information of other parameters and is represented as VSS = (W_O2*VSS_w)/(2.3*W_i) or Volume of suspended solid = (Weight of oxygen*Volatile suspended solid weight)/(2.3*Weight of initial oxygen). Weight of oxygen required to destroy the Volatile suspended solids, Volatile suspended solid weight means weight of the vss & Weight of initial oxygen means the oxygen which is already present in the solution.

How to calculate VSS as Mass Flow Rate given Weight of Oxygen Required?

VSS as Mass Flow Rate given Weight of Oxygen Required calculates volume of suspended solids when we have prior information of other parameters is calculated using Volume of suspended solid = (Weight of oxygen*Volatile suspended solid weight)/(2.3*Weight of initial oxygen). To calculate VSS as Mass Flow Rate given Weight of Oxygen Required, you need Weight of oxygen (W_O2), Volatile suspended solid weight (VSS_w) & Weight of initial oxygen (W_i). With our tool, you need to enter the respective value for Weight of oxygen, Volatile suspended solid weight & Weight of initial oxygen 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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