Pressure Ratio for Insulated Flat Plate, Strong Interaction Solution

STEP 0: Pre-Calculation Summary
Formula Used
Pressure Ratio = 0.514*Viscous Interaction Similarity Parameter+0.759
rp = 0.514*Chi bar+0.759
This formula uses 2 Variables
Variables Used
Pressure Ratio - Pressure Ratio is ratio of final to initial pressure.
Viscous Interaction Similarity Parameter - Viscous Interaction Similarity Parameter is the similarity parameter that governs laminar viscous interactions, both strong and weak, is chi bar.
STEP 1: Convert Input(s) to Base Unit
Viscous Interaction Similarity Parameter: 1.5 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
rp = 0.514*Chi bar+0.759 --> 0.514*1.5+0.759
Evaluating ... ...
rp = 1.53
STEP 3: Convert Result to Output's Unit
1.53 --> No Conversion Required
FINAL ANSWER
1.53 <-- Pressure Ratio
(Calculation completed in 00.004 seconds)

Credits

Created by Sanjay Krishna
Amrita School of Engineering (ASE), Vallikavu
Sanjay Krishna has created this Calculator and 300+ more calculators!
Vallurupalli Nageswara Rao Vignana Jyothi Institute of Engineering and Technology (VNRVJIET), Hyderabad
Sai Venkata Phanindra Chary Arendra has verified this Calculator and 300+ more calculators!

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Freestream Velocity over Flat Plate using Stanton Number
Go Freestream Velocity = Local Heat Transfer Rate/(Stanton Number*Freestream density*(Adiabatic Wall Enthalpy-Wall Enthalpy))
Freestream Density over Flat Plate using Stanton Number
Go Freestream density = Local Heat Transfer Rate/(Stanton Number*Freestream Velocity*(Adiabatic Wall Enthalpy-Wall Enthalpy))
Freestream Stanton Number for Flat Plate
Go Stanton Number = Local Heat Transfer Rate/(Freestream density*Freestream Velocity*(Adiabatic Wall Enthalpy-Wall Enthalpy))
Adiabatic Wall Enthalpy over Flat Plate using Stanton Number
Go Adiabatic Wall Enthalpy = Local Heat Transfer Rate/(Freestream density*Freestream Velocity*Stanton Number)+Wall Enthalpy
Local Heat Transfer over Flat Plate using Stanton Number
Go Local Heat Transfer Rate = Stanton Number*Freestream density*Freestream Velocity*(Adiabatic Wall Enthalpy-Wall Enthalpy)
Wall Enthalpy over Flat Plate using Stanton Number
Go Wall Enthalpy = Adiabatic Wall Enthalpy-Local Heat Transfer Rate/(Freestream density*Freestream Velocity*Stanton Number)
Free Stream Velocity over Flat Plate using Drag Force
Go Freestream Velocity = sqrt(Drag Force/(0.5*Freestream density*Reference Area*Drag Coefficient))
Coefficient of Drag over Flat under Freestream Flow Conditions
Go Drag Coefficient = Drag Force/(0.5*Freestream density*Freestream Velocity^2*Reference Area)
Freestream Density over Flat under Freestream Flow Conditions
Go Freestream density = Drag Force/(0.5*Drag Coefficient*Freestream Velocity^2*Reference Area)
Drag Force over Flat Plate
Go Drag Force = 0.5*Freestream density*Freestream Velocity^2*Reference Area*Drag Coefficient
Free Stream Velocity over Flat Plate with Freestream Conditions
Go Freestream Velocity = sqrt(2*(Total Specific Enthalpy-Freestream Specific Enthalpy))
Pressure Ratio for Insulated Flat Plate, Weak Interaction
Go Pressure Ratio = 1 +0.31*Viscous Interaction Similarity Parameter+0.05*Viscous Interaction Similarity Parameter^2
Free Stream Enthalpy over Flat Plate with Freestream Conditions
Go Freestream Specific Enthalpy = Total Specific Enthalpy-(Freestream Velocity^2)/2
Total Enthalpy over Flat Plate with Freestream Conditions
Go Total Specific Enthalpy = Freestream Specific Enthalpy+(Freestream Velocity^2)/2
Pressure Ratio for Insulated Flat Plate, Strong Interaction
Go Pressure Ratio = 0.514*Viscous Interaction Similarity Parameter+0.759

Pressure Ratio for Insulated Flat Plate, Strong Interaction Formula

Pressure Ratio = 0.514*Viscous Interaction Similarity Parameter+0.759
rp = 0.514*Chi bar+0.759

What is viscous interaction?

Viscous interaction is generally characterized as strong or weak interaction depending upon its effect on the wall properties, outer inviscid flow and growth of boundary layer thickness.

How to Calculate Pressure Ratio for Insulated Flat Plate, Strong Interaction?

Pressure Ratio for Insulated Flat Plate, Strong Interaction calculator uses Pressure Ratio = 0.514*Viscous Interaction Similarity Parameter+0.759 to calculate the Pressure Ratio, Pressure ratio for insulated flat plate, strong interaction formula is defined as function of Viscous interaction similarity parameter which helps to understand viscous interaction on flat plate. Pressure Ratio is denoted by rp symbol.

How to calculate Pressure Ratio for Insulated Flat Plate, Strong Interaction using this online calculator? To use this online calculator for Pressure Ratio for Insulated Flat Plate, Strong Interaction, enter Viscous Interaction Similarity Parameter (Chi bar) and hit the calculate button. Here is how the Pressure Ratio for Insulated Flat Plate, Strong Interaction calculation can be explained with given input values -> 1.53 = 0.514*1.5+0.759.

FAQ

What is Pressure Ratio for Insulated Flat Plate, Strong Interaction?
Pressure ratio for insulated flat plate, strong interaction formula is defined as function of Viscous interaction similarity parameter which helps to understand viscous interaction on flat plate and is represented as rp = 0.514*Chi bar+0.759 or Pressure Ratio = 0.514*Viscous Interaction Similarity Parameter+0.759. Viscous Interaction Similarity Parameter is the similarity parameter that governs laminar viscous interactions, both strong and weak, is chi bar.
How to calculate Pressure Ratio for Insulated Flat Plate, Strong Interaction?
Pressure ratio for insulated flat plate, strong interaction formula is defined as function of Viscous interaction similarity parameter which helps to understand viscous interaction on flat plate is calculated using Pressure Ratio = 0.514*Viscous Interaction Similarity Parameter+0.759. To calculate Pressure Ratio for Insulated Flat Plate, Strong Interaction, you need Viscous Interaction Similarity Parameter (Chi bar). With our tool, you need to enter the respective value for Viscous Interaction Similarity Parameter 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 Pressure Ratio?
In this formula, Pressure Ratio uses Viscous Interaction Similarity Parameter. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Pressure Ratio = 1 +0.31*Viscous Interaction Similarity Parameter+0.05*Viscous Interaction Similarity Parameter^2
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