Diameter of Pipe given Kinematic Viscosity Calculator

✖The Kinematic Viscosity refers to the measure of a fluid's internal resistance to flow under gravitational forces.ⓘ Kinematic Viscosity [υ]			+10% -10%
✖The Total Head refers to the total equivalent height that a fluid is to be pumped, taking into account friction losses in the pipe.ⓘ Total Head [H_t]			+10% -10%
✖The Time in Seconds refers to the ongoing and continuous sequence of events that occur in succession, from the past through the present and into the future.ⓘ Time in Seconds [t_sec]			+10% -10%
✖The Length of Pipe refers to total length from one end to another in which the liquid is flowing.ⓘ Length of Pipe [L_p]			+10% -10%
✖The Volume of Liquid refers to the amount of space that a substance or object occupies or that is enclosed within a container.ⓘ Volume of Liquid [V_T]			+10% -10%

✖The Diameter of Pipe refers to the diameter of the pipe in which the liquid is flowing.ⓘ Diameter of Pipe given Kinematic Viscosity [D_pipe]

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Diameter of Pipe given Kinematic Viscosity Solution

STEP 0: Pre-Calculation Summary

Formula Used

Diameter of Pipe = ((Kinematic Viscosity/(([g]*Total Head*pi*Time in Seconds))/(128*Length of Pipe*Volume of Liquid)))^1/4
D_pipe = ((υ/(([g]*H_t*pi*t_sec))/(128*L_p*V_T)))^1/4
This formula uses 2 Constants, 6 Variables

Constants Used

[g] - Gravitational acceleration on Earth Value Taken As 9.80665
pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288

Variables Used

Diameter of Pipe - (Measured in Meter) - The Diameter of Pipe refers to the diameter of the pipe in which the liquid is flowing.
Kinematic Viscosity - (Measured in Square Meter per Second) - The Kinematic Viscosity refers to the measure of a fluid's internal resistance to flow under gravitational forces.
Total Head - (Measured in Meter) - The Total Head refers to the total equivalent height that a fluid is to be pumped, taking into account friction losses in the pipe.
Time in Seconds - (Measured in Second) - The Time in Seconds refers to the ongoing and continuous sequence of events that occur in succession, from the past through the present and into the future.
Length of Pipe - (Measured in Meter) - The Length of Pipe refers to total length from one end to another in which the liquid is flowing.
Volume of Liquid - (Measured in Cubic Meter) - The Volume of Liquid refers to the amount of space that a substance or object occupies or that is enclosed within a container.

STEP 1: Convert Input(s) to Base Unit

Kinematic Viscosity: 15.1 Square Meter per Second --> 15.1 Square Meter per Second No Conversion Required
Total Head: 12.02 Centimeter --> 0.1202 Meter (Check conversion here)
Time in Seconds: 110 Second --> 110 Second No Conversion Required
Length of Pipe: 0.1 Meter --> 0.1 Meter No Conversion Required
Volume of Liquid: 4.1 Cubic Meter --> 4.1 Cubic Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

D_pipe = ((υ/(([g]*H_t*pi*t_sec))/(128*L_p*V_T)))^1/4 --> ((15.1/(([g]*0.1202*pi*110))/(128*0.1*4.1)))^1/4

Evaluating ... ...

D_pipe = 0.000176585658211031

STEP 3: Convert Result to Output's Unit

0.000176585658211031 Meter --> No Conversion Required

FINAL ANSWER

0.000176585658211031 ≈ 0.000177 Meter <-- Diameter of Pipe

(Calculation completed in 00.004 seconds)

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< Capillary Tube Viscometer Calculators

Diameter of Pipe using Dynamic Viscosity with Time

LaTeX Go Diameter of Pipe = sqrt(Dynamic Viscosity/((Time in Seconds*Specific Weight of Liquid*Cross Sectional Area of Pipe)/(32*Average Reservoir Area*Length of Pipe*ln(Height of Column 1/Height of Column 2))))

Cross-Sectional Area of Tube using Dynamic Viscosity

LaTeX Go Cross Sectional Area of Pipe = Dynamic Viscosity/((Time in Seconds*Specific Weight of Liquid*Diameter of Pipe)/(32*Average Reservoir Area*Length of Pipe*ln(Height of Column 1/Height of Column 2)))

Dynamic Viscosity of Fluids in Flow

LaTeX Go Dynamic Viscosity = ((Time in Seconds*Cross Sectional Area of Pipe*Specific Weight of Liquid*Diameter of Pipe)/(32*Average Reservoir Area*Length of Pipe*ln(Height of Column 1/Height of Column 2)))

Length of Reservoir using Dynamic Viscosity

LaTeX Go Length of Pipe = (Time in Seconds*Cross Sectional Area of Pipe*Specific Weight of Liquid*Diameter of Pipe)/(32*Dynamic Viscosity*Average Reservoir Area*ln(Height of Column 1/Height of Column 2))

Diameter of Pipe given Kinematic Viscosity Formula

LaTeX Go

Diameter of Pipe = ((Kinematic Viscosity/(([g]*Total Head*pi*Time in Seconds))/(128*Length of Pipe*Volume of Liquid)))^1/4
D_pipe = ((υ/(([g]*H_t*pi*t_sec))/(128*L_p*V_T)))^1/4

What is Kinematic Viscosity?

Kinematic viscosity is a measure of a fluid's internal resistance to flow under gravitational forces. Viscosity can be measured and reported as dynamic (absolute) viscosity or as kinematic viscosity.

How to Calculate Diameter of Pipe given Kinematic Viscosity?

Diameter of Pipe given Kinematic Viscosity calculator uses Diameter of Pipe = ((Kinematic Viscosity/(([g]*Total Head*pi*Time in Seconds))/(128*Length of Pipe*Volume of Liquid)))^1/4 to calculate the Diameter of Pipe, The Diameter of Pipe given Kinematic Viscosity formula is defined as the width of section at a point in the study. Diameter of Pipe is denoted by D_pipe symbol.

How to calculate Diameter of Pipe given Kinematic Viscosity using this online calculator? To use this online calculator for Diameter of Pipe given Kinematic Viscosity, enter Kinematic Viscosity (υ), Total Head (H_t), Time in Seconds (t_sec), Length of Pipe (L_p) & Volume of Liquid (V_T) and hit the calculate button. Here is how the Diameter of Pipe given Kinematic Viscosity calculation can be explained with given input values -> 0.000177 = ((15.1/(([g]*0.1202*pi*110))/(128*0.1*4.1)))^1/4.

FAQ

What is Diameter of Pipe given Kinematic Viscosity?

The Diameter of Pipe given Kinematic Viscosity formula is defined as the width of section at a point in the study and is represented as D_pipe = ((υ/(([g]*H_t*pi*t_sec))/(128*L_p*V_T)))^1/4 or Diameter of Pipe = ((Kinematic Viscosity/(([g]*Total Head*pi*Time in Seconds))/(128*Length of Pipe*Volume of Liquid)))^1/4. The Kinematic Viscosity refers to the measure of a fluid's internal resistance to flow under gravitational forces, The Total Head refers to the total equivalent height that a fluid is to be pumped, taking into account friction losses in the pipe, The Time in Seconds refers to the ongoing and continuous sequence of events that occur in succession, from the past through the present and into the future, The Length of Pipe refers to total length from one end to another in which the liquid is flowing & The Volume of Liquid refers to the amount of space that a substance or object occupies or that is enclosed within a container.

How to calculate Diameter of Pipe given Kinematic Viscosity?

The Diameter of Pipe given Kinematic Viscosity formula is defined as the width of section at a point in the study is calculated using Diameter of Pipe = ((Kinematic Viscosity/(([g]*Total Head*pi*Time in Seconds))/(128*Length of Pipe*Volume of Liquid)))^1/4. To calculate Diameter of Pipe given Kinematic Viscosity, you need Kinematic Viscosity (υ), Total Head (H_t), Time in Seconds (t_sec), Length of Pipe (L_p) & Volume of Liquid (V_T). With our tool, you need to enter the respective value for Kinematic Viscosity, Total Head, Time in Seconds, Length of Pipe & Volume of Liquid 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 Diameter of Pipe?

In this formula, Diameter of Pipe uses Kinematic Viscosity, Total Head, Time in Seconds, Length of Pipe & Volume of Liquid. We can use 2 other way(s) to calculate the same, which is/are as follows -

Diameter of Pipe = sqrt(Dynamic Viscosity/((Time in Seconds*Specific Weight of Liquid*Cross Sectional Area of Pipe)/(32*Average Reservoir Area*Length of Pipe*ln(Height of Column 1/Height of Column 2))))
Diameter of Pipe = (Discharge in Laminar Flow/((pi*Specific Weight of Liquid*Head of the Liquid))/(128*Length of Pipe*Dynamic Viscosity))^(1/4)

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