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Two Technologies
for Flow Measurement from Outside a Pipe
Doppler and Transit Time are two very popular types of flow meter for non-invasive measurement of flow in full pipes. We tend to confuse these technologies because they are both ultrasonic and both measure flow by using sensors clamped onto the outside of a pipe. In the real world they actually work best in opposite applications. Success in your installation depends on understanding the differences and making the right choice.

Ultrasonic Flowmeters with Clamp-on Transducers work from Outside a Pipe   Ultrasound is sound generated above the human hearing range - above 20 kHz. Both Doppler and Transit Time flowmeter technologies are called "ultrasonic" because they operate far above the frequencies or sound range that we can hear.

At the heart of each ultrasonic transducer is a piezo-electric crystal. They are glass disks about the size of a coin. These crystals are polarized and expand or pulse a minute amount when electrical energy is applied to the surface electrodes. As it pulses the transducer emits an ultrasonic beam approximately 5 wide at an angle designed to efficiently pass through a pipe wall. The returning echo (pressure pulse) impacts a second passive crystal and creates electrical energy. This is the received signal in a Doppler or Transit Time transducer.

So far, both these piezo-electric ultrasonic technologies seem much the same. No wonder the choice can be confusing. But now let's look the differences.

Transit Time transducers typically operate in the 1-2 MHz frequencies. Higher frequency designs are normally used in smaller pipes and lower frequencies for large pipes up to several meters in diameter. So operators must select transducer pairs/frequencies according to the application. Doppler transducers usually operate at 640 kHz to 1 MHz frequencies and work on a wide range of pipe diameters.
Transit Time Flowmeter with Two Ultrasonic Sensors Transit Time flowmeters must have a pair of transducers, each containing a piezo-electric crystal. One transducer transmits sound while the other acts as a receiver.
As the name suggests, Transit Time flowmeters measure the time it takes for an ultrasonic signal transmitted from one sensor, to cross a pipe and be received by a second sensor. Upstream and downstream time measurements are compared. With no flow, the transit time would be equal in both directions. With flow, sound will travel faster in the direction of flow and slower against the flow. Because the ultrasonic signal must cross the pipe to a receiving transducer, the fluid must not contain a significant concentration of bubbles or solids. Otherwise the high frequency sound will be attenuated and too weak to traverse the pipe.
Doppler Flowmeter with Single-Head Ultrasonic Sensor Doppler flowmeters manufactured by Greyline Instruments use a single-head sensor design allowing fast, simple mounting on the outside of pipes. The single-head transducer includes both transmit and receive piezo-electric crystals in the same housing.
The Doppler effect was first documented in 1842 by Christian Doppler, an Austrian physicist. We all hear daily examples of the Doppler effect. It is the distinct tone change from a passing train whistle or the exhaust from a race car. We hear this tone change, or Doppler effect, only because we are stationary and the sound transmitter - the train or the race car - is in motion. Doppler flow meters use the principal that sound waves will be returned to a transmitter at an altered frequency if reflectors in the liquid are in motion. This frequency shift is in direct proportion to the velocity of the liquid. It is precisely measured by the instrument to calculate the flow rate. So the liquid must contain gas bubbles or solids for the Doppler measurement to work.

Two technologies, one decision:

Doppler flowmeters work best in dirty or aerated liquids like wastewater and slurries. Transit Time flowmeters work with clean liquids like water, oils and chemicals. Contact Greyline for specific advice and information on selecting and applying these technologies successfully in your application.

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Clamp-on Ultrasonic Flowmeters from Greyline
Doppler Models Transit Time Models
DFM 5.0 Doppler Flow Meter DFM 5.1
Doppler Flow Meter for dirty liquids. Monitors flow with clamp-on ultrasonic transducer.
TTFM 1.0 Transit Time Ultrasonic Flowmeter TTFM 1.0
Transit Time Flowmeter for clean liquids. With non-contacting ultrasonic transducers.
New PDFM 5.0 Portable Doppler Flow Meter PDFM 5.1
Portable, battery-powered Doppler Flow Meter with ultrasonic sensor for fast, easy flow troubleshooting.
New - PTFM 1.0 Portable Transit Time Flow Meter PTFM 1.0
Portable Ultrasonic Flow Meter for clean fluids with transducers for 1/2" to 48" (12-1200 mm) pipes.
DFS 5.1 Doppler Flow Switch DFS 5.1
Doppler Flow Switch for Pump Protection from outside the pipe. Works on small and large pipes.
  New PT400 Portable Transit Time Flow Meter Portaflow PT400
Portable Ultrasonic Flow Meter for clean fluids with Sensors selected for small or large pipe diameters.
View Greyline Instruments Product List

Copyright 2015 [Greyline Instruments Inc.] All rights reserved.
Information in this document is subject to change without notice.