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Variable Area Flow Meter Overview

VA meters are one of the oldest-known flow measurement techniques with a large install base, and variable area meters are found in various industries where liquid and gas flows are being measured. Variable area meters all share the same basic design elements – a flow body that consists of a tapered glass or clear plastic tube or a cylindrical metal tube flow meter with an internal tapered metering pin, an internal moving float or orifice plate, and a printed scale that provides the flow rate reading.

The volumetric flow rate through the flow body is proportional to the displacement of the float. When a fluid flows through the tube from bottom to top, it causes a relatively constant pressure drop across the float, which produces an upward force that urges the float upward toward the top of the tube. Increases in flow rate are directly proportional to the square of this pressure drop.

Key Applications

Water & Energy flowmeters from SmartMeasurement have been successfully installed in a wide variety of industries and applications including:

  • Water and gas flow in plants or labs
  • Chemicals or additives
  • Filtration loading
  • Material-blending applications (i.e., lines that use a valved meter)
  • Hydraulic oils
  • Makeup water for food & beverage plants
  • Condensate, demineralized or process water

Why Choose a Variable Area Flow Meter

Variable Area flow meters are inexpensive and easy to install and require no power as it is a purely mechanical message. Another advantage is that they are capable of measuring both liquids and compressed gasses. However, if the VA meter is making use of a gravity return to urge the float back towards the zero position rather than a spring return, then it must be installed in a vertical orientation with the flow tube perpendicular to the base. When the vertical installation is not possible, a meter having the spring return must be used. VA meters are calibrated with water for liquids and air for gasses. For applications involving fluid media other than water or air, the flow scales are corrected based on the operating density of the alternate fluid. The gases or corrosive liquids flow rates are read by aligning the top of the float with the tick mark on the flow tube. However, a change in operating parameters will compromise the meter’s accuracy, forcing it to be returned to the factory for recalibration. In general, the average accuracy of a variable-area flowmeter is ±2-4% of full-scale flow.

Special Cases

In applications where there are no power requirements, a mechanical dial is enough to offer instantaneous fluid measurement. A user can easily read the gas or liquid flow rate from either a scale next to the tube or a scale on the tube. Since power isn’t necessary, users can install the ALVAMT in hazardous and remote areas where it is expensive to supply power.

Flow measurement with Smart Measurement ALVAMT variable flowmeter is always the most common and suitable solution when it comes to measuring low flow rates of clean liquids or gases, and when economy and compact installation take priority over maximum accuracy.

Please visit our industrial measurement applications section to find more detailed information about where our Variable Area flow meters have been successfully used.

Request a quote for Variable Area flow meters for your application or contact Smart Measurement to learn more.

Advantages of Using Variable Area Flow Meters

The major advantages of SmartMeasurement’s ALVAMT variable-area flowmeter include its relatively low cost and its’ ease of installation. Its simplicity of design lends to low maintenance operation and hence, long service life. These meters also offer flexibility in different applications with a wide flow range of chemicals. With the PTFE-lined metal tube construction, variable area meters can resist corrosive damage from aggressive chemicals.

The ALVAMT variable area meter does not require power and will provide accurate flow rate readings much like a glycerin-filled pressure gauge reads pressure readings without any electrical power. This allows the meter to be deployed where it is not practical or possible to run a power cable.

Theories of Operation