How we use your application info to build a custom device

Alicat mass flow and pressure controllers and meters are custom built to meet specific application needs. Some of the most common considerations when building a custom Alicat solution include:

  • Application
  • Flow rate
  • Fluid type
  • Inlet and outlet pressures
  • Process temperature
  • Analog/digital communication
  • Process threads and fittings

This article provides an explanation of each of these considerations.

Application

It is important to indicate what parameters you need to measure and/or control in your process, so we can determine the right device(s) for your setup. Alicat makes a variety of instruments for:

  • Measuring flow
  • Controlling flow 
  • Measuring pressure
  • Controlling pressure

Most Alicat mass flow instruments are differential-pressure based. These multivariate mass flow meters and controllers simultaneously measure mass flow, volumetric flow, pressure, and temperature. Controllers are additionally able to control on mass flow or volumetric flow while measuring pressure, or they can be set to control pressure while measuring flow. Alicat also offers Coriolis mass flow meters and controllers, for true mass flow measurement and control.

Pressure transducers or controllers are available for measuring and/or controlling absolute, gauge, or differential pressure.

Flow rate

Each device is custom ranged to a specific full scale flow rate, making it important to indicate which flow rates you will be flowing in your process.

  • Laminar DP mass flow meters and controllers can flow up to 5000 SLPM, with most devices having operating ranges of 0.01% to 100% of their full scale flow rate. Imagine the maximum flow rate in your process will be 18 SLPM. A device can then be ranged to flow 18 SLPM at full scale, and will provide in-spec readings down to 0.0018 SLPM (1.8 SCCM). If you know that your maximum flow rate will instead be 37 SLPM, a device can be ranged to flow from 0.0037 SLPM (3.7 SCCM) to 37 SLPM.
  • Coriolis mass flow instruments can flow up to 300 kg/hr. Meters operate from 0.2% to 100% of full scale and controllers operate from 2% to 100% of full scale.
  • MEMS thermal mass flow instruments can flow up to 100 SLPM. Meters and controllers operate from 0.1% to 100% of full scale (1,000:1 turndown).

It is important to note that accuracy varies across the flow range, and in the case of Coriolis depends on whether you are flowing gas or liquid. Imagine, for example, that you order a standard differential pressure meter with an 18 SLPM full scale flow rate. Its accuracy spec is ±0.6% of reading and ±0.1% of full scale.  The meter will be able to measure flow rates within device specifications from 18 SLPM down to 0.0018 SLPM (1.8 SCCM), however accuracy will decrease at lower flow rates. Whether or not you will need one or multiple devices is highly dependent on the flow range and accuracy requirements of your application.

Fluid type

Devices can be built using a variety of wetted materials, to ensure fluid compatibility. Two important questions are:

  • Are you flowing gas or liquid?
  • Is the fluid corrosive or non-corrosive?

Non-corrosive gases: If you are flowing non-corrosive gases, you can use most Coriolis or differential pressure instruments. Differential pressure mass flow meters/controllers are equipped with Gas Select™, a library of 98+ pure and mixed gas calibrations. This enables easy switching between process gases, without the need for recalibration. Custom gas mixtures can also be added to the library using COMPOSER™.

Corrosive gases: Many differential pressure devices can be configured to flow corrosive gases. In this configuration, the flow body, sensors, and elastomers are upgraded to materials that are compatible with 128+ gases, including 30+ aggressive gases. Coriolis devices can also be used to flow corrosive gases.

Liquids: When flowing liquids, use a liquid flow device or Coriolis mass flow instrument.

Wetted materials for most products
  • Coriolis flow meters/controllers: 316L stainless steel; FKM, FFKM, EPDM, PCTFE; nickel alloy
  • Laminar DP flow meters/controllers (non-corrosive): 302, 303, 304, 316L, 430FR stainless steel; FKM, alumina ceramic, brass, glass, gold, heat-cured epoxy, heat-cured silicone rubber, polyamide, silicon
  • Laminar DP flow meters/controllers (anti-corrosive): 316L, 303, 430FR stainless steel; FFKM, FKM, or EPDM
  • MEMS thermal flow meters/controllers: 300-series stainless steel, brass, aluminum, FKM, NBR, FR4, SiO2/SiNx/Si, Ablebond 84-3J, PBT UL 94V-0, tin, copper
  • Liquid flow meters/controllers: 430FR, 302, 303, 304, 316L stainless steel; FKM or FFKM

Inlet and outlet pressure

All devices have both minimum and maximum operating pressures. As a fluid flows through a device, some pressure will be lost. Process pressure must exceed the pressure drop of the device, but cannot be too high or the device can be damaged.

  • Maximum pressure is the maximum pressure that a device can handle without risk of damage.
  • Pressure drop is the difference between the flow rate at the inlet and outlet of the device. For example, if your inlet is 130 PSI and your outlet is 100 PSI, the pressure drop would be 30 PSI. Alicat devices have both minimum and maximum pressure drops. The minimum must be exceeded in order for the device to reach its full scale flow rate. If the pressure drop is too high, the internal sensors can be damaged.
Pressure requirements
  • Coriolis flow meters/controllers:
    • Maximum pressure: 4,000 PSIA
    • Pressure drop: Variable – please discuss with an applications engineer.
  • MEMS thermal mass flow meters/controllers:
    • Maximum pressure: 175 PSIG
    • Pressure drop: 0.2 mbar to 850 mbar, model-dependent
  • Standard laminar DP mass flow meters/controllers:
    • Maximum pressure: 160 PSIA
    • Pressure drop: ≥ 1.0 PSI (damage possible above 75 PSI)
  • High pressure laminar DP mass flow meters/controllers:
    • Maximum pressure: 320 PSIA
    • Pressure drop: ≥ 1.0 PSI (damage possible above 75 PSI)
  • Whisper low pressure drop laminar DP mass flow meters/controllers:
    • Maximum pressure: 60 PSIA
    • Pressure drop: ≥ 0.07 PSI (damage possible above 75 PSI)

Process temperature

Your process temperatures must also be compatible with your device.

  • Most laminar DP mass flow meters/controllers can flow fluids ranging from −10°C to +60°C
  • Most Coriolis mass flow meters/controllers can flow fluids ranging from −35°C to +70°C
  • Most MEMS thermal mass flow meters/controllers can flow fluids ranging from 0°C to +50°C

Digital communication

Available communication protocols for most Alicat laminar DP mass flow devices include:

  • Analog (4-20 mA, 0-10 Vdc, 0-5 Vdc, or 1-5 Vdc)
  • ASCII over RS-232 or RS-485
  • Modbus RTU
  • PROFIBUS
  • PROFINET
  • DeviceNet
  • EtherNet/IP
  • ModbusTCP/IP
  • EtherCAT

For Coriolis mass flow devices, the following communication protocols are available:

  • RS-232
  • RS-485
  • Modbus RTU
  • EtherCAT
  • EtherNet/IP

For MEMS thermal mass flow devices, the following communication protocols are available:

  • RS-232
  • RS-485
  • Modbus RTU

Process threads and fittings

Alicat device ports

Alicat device ports

Threads and fittings are the inlets and outlets of our flow instruments. As with many threading and connecting designs, needs vary by mechanics and standards. Higher flow, higher pressure applications need more robust threads to withstand the forces involved, and the converse is true too.

Most Alicat devices have default NPT threads, but are offered with variety of other threads and fittings, including SAE, AN 37 degree flare, VCR, VCO, Swagelok compatible compression, and BSPP (or “G”).

Request a quote

WordPress Video Lightbox Plugin