Sonic Driver 130323 Pocket UFM Wall Thickness Gauge Instruction Manual
- June 12, 2024
- Sonic Driver
Table of Contents
Sonic Driver 130323 Pocket UFM Wall Thickness Gauge
Product Information
Made in Britain
POCKET-UFM Wall Thickness Gauge Operating Instructions
Version 3.0
13th March 2022 Copyright Sonic Driver Ltd 2023
Introduction
The Sonic DriverTM Pocket-UFM is a wall thickness gauge designed to measure the thickness of pipes. It utilizes advanced Digital Signal Processing (DSP) techniques to accurately measure the time of flight of ultrasonic sound waves as they propagate through the pipe wall.
Operation
The Pocket-UFM consists of a WTG Probe that is coupled to the pipe wall
using coupling gel. The measurement process involves starting the wall
thickness measurement and then displaying the measurement values and
diagnostics.
Coupling the WTG Probe to the Pipe
To couple the WTG probe to the pipe wall, apply coupling gel to the probe
and select an area of the pipe that is free from paint, corrosion, and
pitting. Ensure that the probe is held normal to the pipe wall surface and
aligned with its axis.
Starting Wall Thickness Measurement
To start the wall thickness measurement, select the pipe material from the
scrolling list on the Pocket-UFM. If the pipe material is not listed, select
“Other” and enter a value for the longitudinal sound velocity. Press ENTER to
begin the measurement. To stop the measurement, press Run/Stop.
Displaying Wall Thickness Measurement
There are three displays available when making wall thickness measurements:
- Detailed Measurement and Diagnostic Values: This display shows the measurement values and diagnostics.
- Ultrasound A-scan: This display shows an A-scan, which is an ultrasonic signal against time trace. It allows optimization of the amplitude of the echoes by rolling the WTG probe on the pipe wall.
- Processed Data Showing Measurement Echo: This display shows processed data as a graph, with the preferred echo marked with a vertical line at its peak position. Rolling the WTG probe on the pipe wall can optimize the amplitude of the peaks and ensure accurate measurement.
Introduction
- A knowledge of the thickness of the pipe wall is important for correctly installing and commissioning a clamp-on ultrasonic flowmeter to the outside of a pipe.
- Using the correct wall thickness allows the user to achieve accurate flow measurement.
- Although the outer diameter of the pipe can be calculated with accuracy from a measurement of circumference the value of pipe wall thickness is often poorly known, if it is known at all.
- By connecting a wall thickness gauge (WTG) probe to the Pocket-UFM™ instead of flow transducers, and by selecting the WTG probe in the User Interface (UI) an accurate pipe wall thickness measurement can be made.
- Simply couple the WTG probe to the outside of the pipe using acoustic coupling gel.
- This measured value of pipe wall thickness can subsequently be used to accurately setup the meter to make flow measurements.
Operation
The Sonic Driver™ core ultrasonic transceiver module within the Pocket-UFM
uses advanced Digital Signal Processing (DSP) techniques to make an accurate
time of flight measurement as longitudinal sound waves propagate through the
pipe wall;
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One element of the dual element WTG probe generates an ultrasonic pulse that propagates through the pipe wall, see figure(1).
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The ultrasonic pulse is reflected from both the outer pipe wall and the inside pipe wall, at the pipe//fluid interface.
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The ultrasonic pulse is received on the second element of the WTG probe.
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The time difference between emitting and receiving the ultrasonic pulse is measured.
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Using the longitudinal sound velocity for the material of the pipe wall the pipe wall thickness is calculated using equation(1).
Pipe Wall Thickness = Lsos . Tdiff / 2
Equation(1) Calculation of Wall Thickness
Where;
- Pipe wall thickness (m).
- Lsos = Pipe material longitudinal sound velocity (m/s).
- Tdiff = Measured difference in time between reflection from outer wall of pipe and inner wall of pipe (s).
Couple the WTG Probe to the Pipe
Couple the WTG probe to the pipe wall using coupling gel.
Select an area of the pipe that is ideally; bare of paint, corrosion, pitting,
etc.. It is possible that no reliable, consistent measurement will be achieved
on poor pipe surfaces, try a different location or prepare the surface.
Hold the WTG probe normal to the pipe wall surface and aligned to its axis as
shown in figure(2).
- When measuring on a hot surface contact the probe to the surface for as short a time as possible to avoid heating the probe.
Starting Wall Thickness Measurement
From the HMI select Main Menu – Quick Start. Press ENTER.
Select Transducer Type – WTG from the scrolling list. Press ENTER. When WTG
probe rather than one of the flow probes is selected the HMI menus become
context driven specific to WTG measurement.
Select Pipe Material from the scrolling list. If the pipe wall material is not
listed select Other from the bottom of the list and enter a value for the
longitudinal sound velocity, see section 2.4.
Press ENTER.
The Pocket-UFM will begin to make wall thickness measurements. To stop wall
thickness measurement press Run/Stop.
Display Wall Thickness Measurement
There are 3 displays available when making wall thickness measurements. Scroll
between the displays by pressing the Enter key;
- Detailed measurement and diagnostic values.
- Ultrasound A-scan.
- Processed data showing measurement echo.
Detailed Measurement and Diagnostic Values
The display screen shows measurement values and diagnostics, see figure(3);
- T – Measured transit time (us)
- B – Peak position (Bin or data point on display x axis figure(5))
- P – Peak position interpolated (sub bin resolution)
- L – Pipe longitudinal sound velocity (m/s)
- Thickness – Measured pipe wall thickness (mm)
- S – Echo signal amplitude (dB)
- N – Electronic noise level (dB)
- Gain – Receiver gain (dB)
Ultrasound A-scan
- This display screen shows an A-scan (Ultrasonic signal against time trace), see figure(4).
- It is possible to see that the ultrasonic pulse reverberates and echoes many times across the pipe wall.
- By rolling the WTG probe on the pipe wall it is possible to optimise the amplitude of the echoes.
Processed Data Showing Measurement Echo
- This display screen shows processed data as a graph, with the preferred echo marked with a vertical line at its peak position, see figure(5).
- By rolling the WTG probe on the pipe wall it is possible to optimise the amplitude of the peaks.
- The Sonic Driver DSP will preferentially pick the nearest, largest peak to the left side of the display to make its measurement.
- Clearly, if the DSP should be selecting incorrectly then rolling the WTG probe can make the selection jump to the correct peak.
Measuring on Other pipe material
- If the material of the pipe is not listed, or the user requires to use a different value to that listed for a material then the user can select the pipe material as Other.
- From the menu Main Menu – Installation – Pipe the user can select option WTG SOS.
- Enter a value for the longitudinal sound velocity in the pipe material and press ENTER.
NOTE : This value is only used when pipe material Other is selected. The value for a listed pipe material is not changed.
Technical Data
Type | Dual element |
---|---|
Frequency | 5 MHz |
Size | 10 mm diameter |
Measurement range | 2 to 24 mm |
Operating temperature | -20 to 60 °C |
Cable length | 1 m |
Connection | Dual Lemo 00 plugs |
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