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Pulsar Process Measurement has supplied a non-contacting ultrasonic open-channel flow measurement system featuring its Duet transducer array to Manchester Airport.

The system is intended to provide measurement accuracy in the airport’s critical API hydrocarbon separation unit.

Pulsar’s Flowcert system featuring the Duet transducer has achieved Class 1 Mcerts certification.

Surface water run-off in an area as large as a major airport is considerable and, in certain areas, may be mixed with aviation fuel, oil and other contaminants, so it has to be treated in the same way as any other industrial effluent before it can be discharged.

This means that the final effluent flow must be separated, treated and measured, which is where Pulsar comes in.

The company supplied a v-notch weir plate along with a Duet transducer array and a Flowcert control unit to measure effluent flow through an open channel.

The channel was in an exposed position, where solar radiation can be a significant factor affecting measurement accuracy.

The v-notch weir plate was sized for a maximum flow rate of 25 litres per second, although the actual flow can be very small in dry periods of the year.

The measurement of this type of application is particularly difficult; the ultrasonic technique is based on the measurement of the time taken for an echo to return to the face of a transducer, which is, in turn, dependent on the speed of sound.

The speed of sound in air varies with air density, which is affected by air temperature.

If the measurement device does not compensate quickly and accurately, errors are introduced into the result.

In this case, because the head varies by around 200mm between high flow and zero, it is crucial that the measurement is accurate and repeatable right down to the very lowest flows and records a genuine zero when there is no flow at all.

Duet consists of an array of two transducers that fire ultrasonic pulses simultaneously, which are then received at the lower transducer only.

The Flowcert controller then compares the two returning echoes.

The two transducers are mounted on a heavy frame and the separation of the two transducers is a fixed distance, so any changes in the measured distance when comparing the two ultrasonic pulses must be down to variations in the speed of sound.

This strategy allows the Flowcert controller to compensate dynamically and accurately for these variances, applying that compensation to the flow measurement.

Under Mcerts tests, this system has allowed Flowcert and Duet to achieve total error levels of only 0.037 per cent, even under the new, stringent solar radiation test.

‘We’re now in the process of standardising on Pulsar equipment for all our flow and level measurement applications,’ said Mark Stewart, the airport’s water services engineer in charge of the project.

Pulsar Process Measurement

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