# Propeller Turbine Mixer Design Calculator

Here is the simple online fluid mechanical calculator to find the flow fluid mass density, also known as mass per unit volume, of propeller turbine mixer design. In this propeller turbine mixer design calculator, the fluid mass density of the turbulent flow is calculated based on the power, mixing constant, revolutions per second, impeller diameter and fluid mass density. This Turbulent Flow Fluid Mass Density calculator will be useful in fluid mechanics.

## Calculate Turbulent Flow Fluid Mass Density

Here is the simple online fluid mechanical calculator to find the flow fluid mass density, also known as mass per unit volume, of propeller turbine mixer design. In this propeller turbine mixer design calculator, the fluid mass density of the turbulent flow is calculated based on the power, mixing constant, revolutions per second, impeller diameter and fluid mass density. This Turbulent Flow Fluid Mass Density calculator will be useful in fluid mechanics.

Code to add this calci to your website

#### Formula:

**Turbulent Flow Fluid Mass Density**
ρ = P / (k x n^{3} x D^{5})
**Where,**
ρ = Fluid Mass Density
k = Mixing Constant
P = Power Requirement
n = Revolution per Second
D = Impeller Diameter
### Example:

If the mixing constant, revolution per speed, impeller diameter, and power requirement values are 3, 2, 8 cm and 5W.

#### Propeller Turbine Mixer Design Calculation:

ρ = P / (k x n^{3} x D^{5})

ρ = 5 / (3 x 2^3 x 8^5)

= 63578.2878 kg / m^{3}