Average Sherwood Number of Internal Turbulent Flow Calculator

✖Reynolds Number is a dimensionless value that predicts the nature of fluid flow, whether it is laminar or turbulent, in a pipe or around an object.ⓘ Reynolds Number [Re]			+10% -10%
✖Schmidt Number is a dimensionless value that characterizes the turbulent flow in fluids, representing the ratio of momentum diffusivity to mass diffusivity.ⓘ Schmidt Number [Sc]			+10% -10%

✖Average Sherwood Number is a dimensionless number used to characterize the convective mass transport in turbulent flow, particularly in chemical and process engineering applications.ⓘ Average Sherwood Number of Internal Turbulent Flow [N_sh]

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Average Sherwood Number of Internal Turbulent Flow Solution

STEP 0: Pre-Calculation Summary

Formula Used

Average Sherwood Number = 0.023*(Reynolds Number^0.83)*(Schmidt Number^0.44)
N_sh = 0.023*(Re^0.83)*(Sc^0.44)
This formula uses 3 Variables

Variables Used

Average Sherwood Number - Average Sherwood Number is a dimensionless number used to characterize the convective mass transport in turbulent flow, particularly in chemical and process engineering applications.
Reynolds Number - Reynolds Number is a dimensionless value that predicts the nature of fluid flow, whether it is laminar or turbulent, in a pipe or around an object.
Schmidt Number - Schmidt Number is a dimensionless value that characterizes the turbulent flow in fluids, representing the ratio of momentum diffusivity to mass diffusivity.

STEP 1: Convert Input(s) to Base Unit

Reynolds Number: 500000 --> No Conversion Required
Schmidt Number: 1.2042 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

N_sh = 0.023*(Re^0.83)*(Sc^0.44) --> 0.023*(500000^0.83)*(1.2042^0.44)

Evaluating ... ...

N_sh = 1340.85042404636

STEP 3: Convert Result to Output's Unit

1340.85042404636 --> No Conversion Required

FINAL ANSWER

1340.85042404636 ≈ 1340.85 <-- Average Sherwood Number

(Calculation completed in 00.004 seconds)

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Created by Nishan Poojary

Shri Madhwa Vadiraja Institute of Technology and Management (SMVITM), Udupi

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Convective Mass Transfer Coefficient of Flat Plate Laminar Flow using Drag Coefficient

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Average Sherwood Number of Combined Laminar and Turbulent Flow

LaTeX Go Average Sherwood Number = ((0.037*(Reynolds Number^0.8))-871)*(Schmidt Number^0.333)

Average Sherwood Number of Internal Turbulent Flow

LaTeX Go Average Sherwood Number = 0.023*(Reynolds Number^0.83)*(Schmidt Number^0.44)

Average Sherwood Number of Flat Plate Turbulent Flow

LaTeX Go Average Sherwood Number = 0.037*(Reynolds Number^0.8)

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Average Sherwood Number of Combined Laminar and Turbulent Flow

LaTeX Go Average Sherwood Number = ((0.037*(Reynolds Number^0.8))-871)*(Schmidt Number^0.333)

Average Sherwood Number of Internal Turbulent Flow

LaTeX Go Average Sherwood Number = 0.023*(Reynolds Number^0.83)*(Schmidt Number^0.44)

Average Sherwood Number of Flat Plate Turbulent Flow

LaTeX Go Average Sherwood Number = 0.037*(Reynolds Number^0.8)

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Average Sherwood Number of Internal Turbulent Flow

LaTeX Go Average Sherwood Number = 0.023*(Reynolds Number^0.83)*(Schmidt Number^0.44)

Average Sherwood Number of Flat Plate Turbulent Flow

LaTeX Go Average Sherwood Number = 0.037*(Reynolds Number^0.8)

Average Sherwood Number of Internal Turbulent Flow Formula

LaTeX Go

Average Sherwood Number = 0.023*(Reynolds Number^0.83)*(Schmidt Number^0.44)
N_sh = 0.023*(Re^0.83)*(Sc^0.44)

What is Sherwood Number?

The Sherwood number (Sh) (also called the mass transfer Nusselt number) is a dimensionless number used in mass-transfer operation. The mass transport problem is solved both analytically and numerically under the assumption of instantaneous adsorption upon the liquid-solid interface. The velocity components within the liquid phase are obtained either by using the analytical formulations of the sphere-in-cell model or by solving numerically the creeping flow problem in a stochastically constructed packing of spheres

How to Calculate Average Sherwood Number of Internal Turbulent Flow?

Average Sherwood Number of Internal Turbulent Flow calculator uses Average Sherwood Number = 0.023*(Reynolds Number^0.83)*(Schmidt Number^0.44) to calculate the Average Sherwood Number, Average Sherwood Number of Internal Turbulent Flow formula is defined as a dimensionless number used to characterize the convective mass transfer between a fluid and a solid boundary, providing a measure of the efficiency of mass transfer in turbulent flow systems, particularly in convective mass transfer processes. Average Sherwood Number is denoted by N_sh symbol.

How to calculate Average Sherwood Number of Internal Turbulent Flow using this online calculator? To use this online calculator for Average Sherwood Number of Internal Turbulent Flow, enter Reynolds Number (Re) & Schmidt Number (Sc) and hit the calculate button. Here is how the Average Sherwood Number of Internal Turbulent Flow calculation can be explained with given input values -> 1340.948 = 0.023*(500000^0.83)*(1.2042^0.44).

FAQ

What is Average Sherwood Number of Internal Turbulent Flow?

Average Sherwood Number of Internal Turbulent Flow formula is defined as a dimensionless number used to characterize the convective mass transfer between a fluid and a solid boundary, providing a measure of the efficiency of mass transfer in turbulent flow systems, particularly in convective mass transfer processes and is represented as N_sh = 0.023*(Re^0.83)*(Sc^0.44) or Average Sherwood Number = 0.023*(Reynolds Number^0.83)*(Schmidt Number^0.44). Reynolds Number is a dimensionless value that predicts the nature of fluid flow, whether it is laminar or turbulent, in a pipe or around an object & Schmidt Number is a dimensionless value that characterizes the turbulent flow in fluids, representing the ratio of momentum diffusivity to mass diffusivity.

How to calculate Average Sherwood Number of Internal Turbulent Flow?

Average Sherwood Number of Internal Turbulent Flow formula is defined as a dimensionless number used to characterize the convective mass transfer between a fluid and a solid boundary, providing a measure of the efficiency of mass transfer in turbulent flow systems, particularly in convective mass transfer processes is calculated using Average Sherwood Number = 0.023*(Reynolds Number^0.83)*(Schmidt Number^0.44). To calculate Average Sherwood Number of Internal Turbulent Flow, you need Reynolds Number (Re) & Schmidt Number (Sc). With our tool, you need to enter the respective value for Reynolds Number & Schmidt Number and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

How many ways are there to calculate Average Sherwood Number?

In this formula, Average Sherwood Number uses Reynolds Number & Schmidt Number. We can use 3 other way(s) to calculate the same, which is/are as follows -

Average Sherwood Number = 0.037*(Reynolds Number^0.8)
Average Sherwood Number = 0.037*(Reynolds Number^0.8)
Average Sherwood Number = 0.037*(Reynolds Number^0.8)

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