Dynamic Viscosity when Specific or Intrinsic Permeability is Considered Solution

STEP 0: Pre-Calculation Summary
Formula Used
Dynamic Viscosity of the Fluid = Intrinsic Permeability*((Unit Weight of Fluid/1000)/Coefficient of Permeability at the temperature)
μ = Ko*((γ/1000)/K)
This formula uses 4 Variables
Variables Used
Dynamic Viscosity of the Fluid - (Measured in Pascal Second) - Dynamic viscosity of the fluid is the measure of its resistance to flow when an external force is applied.
Intrinsic Permeability - (Measured in Square Meter) - Intrinsic Permeability or Specific Permeability is a measure of relative ease with which porous medium can transmit fluid under potential gradient and is property of medium alone.
Unit Weight of Fluid - (Measured in Newton per Cubic Meter) - Unit Weight of Fluid is the weight per unit volume of a material/fluid.
Coefficient of Permeability at the temperature - (Measured in Meter per Second) - The coefficient of Permeability at the temperature describes how easily a liquid will move through the porous medium.
STEP 1: Convert Input(s) to Base Unit
Intrinsic Permeability: 0.00987 Square Meter --> 0.00987 Square Meter No Conversion Required
Unit Weight of Fluid: 9.807 Kilonewton per Cubic Meter --> 9807 Newton per Cubic Meter (Check conversion here)
Coefficient of Permeability at the temperature: 6 Centimeter per Second --> 0.06 Meter per Second (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
μ = Ko*((γ/1000)/K) --> 0.00987*((9807/1000)/0.06)
Evaluating ... ...
μ = 1.6132515
STEP 3: Convert Result to Output's Unit
1.6132515 Pascal Second --> No Conversion Required
FINAL ANSWER
1.6132515 1.613252 Pascal Second <-- Dynamic Viscosity of the Fluid
(Calculation completed in 00.004 seconds)

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21 Coefficient of Permeability Calculators

Hagen Poiseuille flow or mean particle size of porous medium laminar flow through conduit
Go Mean Particle Size of the Porous Medium = sqrt((Coefficient of Permeability (Hagen-Poiseuille)*Dynamic Viscosity of the Fluid)/(Shape Factor*(Unit Weight of Fluid/1000)))
Dynamic viscosity of fluid of laminar flow through conduit or Hagen Poiseuille flow
Go Dynamic Viscosity of the Fluid = (Shape Factor*Mean Particle Size of the Porous Medium^2)*((Unit Weight of Fluid/1000)/Coefficient of Permeability (Hagen-Poiseuille))
Coefficient of permeability from analogy of laminar flow (Hagen Poiseuille flow)
Go Coefficient of Permeability (Hagen-Poiseuille) = Shape Factor*(Mean Particle Size of the Porous Medium^2)*(Unit Weight of Fluid/1000)/Dynamic Viscosity of the Fluid
Coefficient of permeability at any temperature t for standard value of coefficient of permeability
Go Coefficient of Permeability at any Temperature t = (Standard Coefficient of Permeability at 20°C*Kinematic Viscosity at 20° C)/Kinematic Viscosity at t° C
Kinematic Viscosity at 20 degree Celsius for standard value of coefficient of permeability
Go Kinematic Viscosity at 20° C = (Coefficient of Permeability at any Temperature t*Kinematic Viscosity at t° C)/Standard Coefficient of Permeability at 20°C
Kinematic Viscosity for standard value of coefficient of permeability
Go Kinematic Viscosity at t° C = (Standard Coefficient of Permeability at 20°C*Kinematic Viscosity at 20° C)/Coefficient of Permeability at any Temperature t
Standard value of coefficient of permeability
Go Standard Coefficient of Permeability at 20°C = Coefficient of Permeability at any Temperature t*(Kinematic Viscosity at t° C/Kinematic Viscosity at 20° C)
Coefficient of permeability at temperature of permeameter experiment
Go Coefficient of Permeability at the temperature = (Discharge/Cross-Sectional Area)*(1/(Constant Head Difference/Length))
Cross sectional area when coefficient of permeability at permeameter experiment is considered
Go Cross-Sectional Area = Discharge/(Coefficient of Permeability at the temperature*(Constant Head Difference/Length))
Discharge when Coefficient of Permeability at Permeameter Experiment is Considered
Go Discharge = Coefficient of Permeability at the temperature*Cross-Sectional Area*(Constant Head Difference/Length)
Length when Coefficient of Permeability at Permeameter Experiment is Considered
Go Length = (Constant Head Difference*Cross-Sectional Area*Coefficient of Permeability at the temperature)/Discharge
Coefficient of Permeability when Specific or Intrinsic Permeability is Considered
Go Coefficient of Permeability at the temperature = Intrinsic Permeability*((Unit Weight of Fluid/1000)/Dynamic Viscosity of the Fluid)
Specific or Intrinsic Permeability when Coefficient of Permeability is Considered
Go Intrinsic Permeability = (Coefficient of Permeability at the temperature*Dynamic Viscosity of the Fluid)/(Unit Weight of Fluid/1000)
Specific or Intrinsic Permeability when Dynamic Viscosity is Considered
Go Intrinsic Permeability = (Coefficient of Permeability at the temperature*Dynamic Viscosity of the Fluid)/(Unit Weight of Fluid/1000)
Dynamic Viscosity when Specific or Intrinsic Permeability is Considered
Go Dynamic Viscosity of the Fluid = Intrinsic Permeability*((Unit Weight of Fluid/1000)/Coefficient of Permeability at the temperature)
Kinematic Viscosity when Specific or Intrinsic Permeability is Considered
Go Kinematic Viscosity = (Intrinsic Permeability*Acceleration due to Gravity)/Coefficient of Permeability
Equation for Specific or Intrinsic Permeability
Go Intrinsic Permeability = Shape Factor*Mean Particle Size of the Porous Medium^2
Kinematic Viscosity and Dynamic Viscosity Relation
Go Kinematic Viscosity = Dynamic Viscosity of the Fluid/Density of Fluid
Unit weight of fluid
Go Unit Weight of Fluid = Density of Fluid*Acceleration due to Gravity
Coefficient of Permeability when Transmissibility is Considered
Go Coefficient of Permeability = Transmissibility/Aquifer Thickness
Equivalent permeability when transmissivity of aquifer is considered
Go Equivalent Permeability = Transmissivity/Aquifer Thickness

Dynamic Viscosity when Specific or Intrinsic Permeability is Considered Formula

Dynamic Viscosity of the Fluid = Intrinsic Permeability*((Unit Weight of Fluid/1000)/Coefficient of Permeability at the temperature)
μ = Ko*((γ/1000)/K)

What is Coefficient of Permeability?

The Coefficient of Permeability describes how easily a liquid will move through a soil. It is also commonly referred to as the hydraulic conductivity of a soil. This factor can be affected by the viscosity, or thickness(fluidity) of a liquid and its density. of a soil describes how easily a liquid will move through a soil. It is also commonly referred to as the hydraulic conductivity of a soil. This factor can be affected by the viscosity, or thickness(fluidity) of a liquid and its density.

How to Calculate Dynamic Viscosity when Specific or Intrinsic Permeability is Considered?

Dynamic Viscosity when Specific or Intrinsic Permeability is Considered calculator uses Dynamic Viscosity of the Fluid = Intrinsic Permeability*((Unit Weight of Fluid/1000)/Coefficient of Permeability at the temperature) to calculate the Dynamic Viscosity of the Fluid, The Dynamic Viscosity when Specific or Intrinsic Permeability is Considered is defined as the resistance to movement of one layer of a fluid over another. Dynamic Viscosity of the Fluid is denoted by μ symbol.

How to calculate Dynamic Viscosity when Specific or Intrinsic Permeability is Considered using this online calculator? To use this online calculator for Dynamic Viscosity when Specific or Intrinsic Permeability is Considered, enter Intrinsic Permeability (Ko), Unit Weight of Fluid (γ) & Coefficient of Permeability at the temperature (K) and hit the calculate button. Here is how the Dynamic Viscosity when Specific or Intrinsic Permeability is Considered calculation can be explained with given input values -> 1.613252 = 0.00987*((9807/1000)/0.06).

FAQ

What is Dynamic Viscosity when Specific or Intrinsic Permeability is Considered?
The Dynamic Viscosity when Specific or Intrinsic Permeability is Considered is defined as the resistance to movement of one layer of a fluid over another and is represented as μ = Ko*((γ/1000)/K) or Dynamic Viscosity of the Fluid = Intrinsic Permeability*((Unit Weight of Fluid/1000)/Coefficient of Permeability at the temperature). Intrinsic Permeability or Specific Permeability is a measure of relative ease with which porous medium can transmit fluid under potential gradient and is property of medium alone, Unit Weight of Fluid is the weight per unit volume of a material/fluid & The coefficient of Permeability at the temperature describes how easily a liquid will move through the porous medium.
How to calculate Dynamic Viscosity when Specific or Intrinsic Permeability is Considered?
The Dynamic Viscosity when Specific or Intrinsic Permeability is Considered is defined as the resistance to movement of one layer of a fluid over another is calculated using Dynamic Viscosity of the Fluid = Intrinsic Permeability*((Unit Weight of Fluid/1000)/Coefficient of Permeability at the temperature). To calculate Dynamic Viscosity when Specific or Intrinsic Permeability is Considered, you need Intrinsic Permeability (Ko), Unit Weight of Fluid (γ) & Coefficient of Permeability at the temperature (K). With our tool, you need to enter the respective value for Intrinsic Permeability, Unit Weight of Fluid & Coefficient of Permeability at the temperature 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 Dynamic Viscosity of the Fluid?
In this formula, Dynamic Viscosity of the Fluid uses Intrinsic Permeability, Unit Weight of Fluid & Coefficient of Permeability at the temperature. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Dynamic Viscosity of the Fluid = (Shape Factor*Mean Particle Size of the Porous Medium^2)*((Unit Weight of Fluid/1000)/Coefficient of Permeability (Hagen-Poiseuille))
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