Laminar Differential Pressure (DP) Flow Meter – Operating Principle

Alicat Scientific pioneered the use of laminar DP technology to read mass flow in 1992. Previous to this, classic DP technology was used to measure flow rate – but with significantly less precision. Today, Alicat laminar DP mass flow meters and controllers use laminar DP measurement technology to accurately measure mass flow rates for over 130 gases.

Four steps to measure mass flow using laminar DP

  1. Convert turbulent flow into smooth laminar flow
  2. Measure the pressure drop across a flow channel
  3. Calculate the volumetric flow rate
  4. Calculate a standardized mass flow rate

The following video shows how an Alicat laminar DP flow meter calculates mass flow:

Calculating volumetric flow rate

Alicat laminar DP flow meters and controllers contain a flow passage called a laminar flow element (LFE) that converts all turbulent flow into laminar flow. The instrument first measures the differential pressure drop across the LFE, and then uses the Poiseuille Equation to calculate a volumetric flow rate.

Poiseuille equation

Volumetric flow = (P1-P2)πr4/8ηL = K(ΔP)/η

P1 = Static pressure at the inlet; P2 = Static pressure at the outlet; r = Hydraulic radius of the restriction; η = Absolute viscosity of the fluid; L = Length of the restriction

The Poiseuille equation shows the linear relationship between volumetric flow rate, differential pressure (ΔP), and absolute viscosity (η). In the simplified equation, K is a constant that encompasses the geometric factors of the LFE.

Calculating mass flow rate

Laminar DP mass flow instruments use the volumetric flow rate and a series of density correction factors to calculate a mass flow rate.

Density correction factors

1. Temperature density correction = Ts/Ta

Ta = Absolute temperature at flow conditions; Ts = Absolute temperature at standard conditions (STP)

2. Pressure density correction= Pa/Ps

Pa = Absolute pressure at flow conditions; Ps = Absolute pressure at standard conditions (STP)

3. Compressibility = Zs/Za

Za = Compressibility at flow conditions; Zs = Compressibility at standard conditions (STP)

When combined, you can produce an equation that uses volumetric flow, temperature, pressure, and gas compressibility to calculate a mass flow rate.

Mass flow rate equation

Mass flow = (Volumetric flow)(Ts/Ta)(Pa/Ps)(Zs/Za)

(Ts/Ta)(Pa/Ps)(Zs/Za) = Density correction factors

In an Alicat mass flow device, a discrete absolute pressure sensor is placed in the laminar region of the flow stream. This information is sent to the microprocessor and is combined with the data from the discrete absolute temperature sensor to make the correct mass flow calculations.

FastTrack Ordering

M/MC mass flow meters and controllers that ship in just 3-5 business days.
CALIBRATION
Standard or High Accuracy
DISPLAY
Monochrome, Color, or None
PROTOCOL
Analog, RS-232, RS-485, or Modbus RTU
CONNECTOR
MD8, Locking Industrial, DB9M, DB15
FITTINGS
NPT

METER RANGES

2 SCCM - 500SLPM

CONTROLLER RANGES

2 SCCM - 100SLPM

Service and Support

Whether it is time for your instrument’s annual recalibration or your instrument needs a repair or upgrade,
you can fill out the Service Request Form below, email us, call us, or start a live chat session to get the service process started.

7641 N Business Park Dr. Tucson, AZ 85743

service@alicat.com

+1(888)290-6060