The Reynolds Number is a non-dimensional parameter defined by the ratio of

• dynamic pressure (ρ u²) and
• shearing stress (μ u / L)

The Reynolds Number can be used to determine if flow is laminar, transient or turbulent. The flow is

• laminar when Re < 2300
• transient when 2300 < Re < 4000
• turbulent when Re > 4000

and can be expressed as

Re = (ρ u²) / (μ u / L)

    = ρ u L / μ

    = u L / ν            (1)

where

Re = Reynolds Number (non-dimensional)

ρ = density (kg/m³, lb_m/ft³  )

u = velocity (m/s, ft/s)

μ = dynamic viscosity (Ns/m², lb_m/s ft)

L = characteristic length (m, ft)

ν = kinematic viscosity (m²/s, ft²/s)

Reynolds Number for a Pipe or Duct

For a pipe or duct the characteristic length is the hydraulic diameter. The Reynolds Number for a duct or pipe can be expressed as

 Re = ρ u d_h / μ

    = u d_h / ν          (2)

where

d_h = hydraulic diameter (m, ft)

Example - Calculating Reynolds Number

A Newtonian fluid with a dynamic or absolute viscosity of 0.38 Ns/m² and a specific gravity of 0.91 flows through a 25 mm diameter pipe with a velocity of 2.6 m/s.

The density can be calculated using the specific gravity like

ρ = 0.91 (1000 kg/m³)

    = 910 kg/m³

The Reynolds Number can then be calculated using equation (1) like

Re = (910 kg/m³) (2.6 m/s) (25 mm) (10^-3 m/mm) / (0.38 Ns/m²)

    = 156 (kg m / s²)/N

    = 156 ~ Laminar flow

(1 N = 1 kg m / s²)

Online Reynolds Calculator

Below are two links to online Reynolds Number Calculators.

Reynolds Number Calculator

Reynolds Number Calculator