Researchers who pioneered the use of sound waves to detect blockages in undersea gas pipes have won funding to develop a commercial product.
The Acoustek system, developed by Manchester University, has already been used by Yorkshire-based Pipeline Engineering to survey pipes in the UK and US using off-the-shelf technology.
Now the inventors of the technique, which is shortlisted for an IET Innovation Award, plan to design new technology to give them better control over the process and to enable it to scan liquids as well as gases.
The system creates sound waves by sending out a high-pressure pulse of gas that is reflected by pipe blockages up to 10km away.
These can cost gas companies hundred of millions of dollars a day and are created when the gas, under high pressure and low temperature, forms solid hydrate deposits hundreds of metres long.
By comparing the reflected waves to a map of the pipe network, engineers can rule out reflections caused by bends and junctions, and pinpoint where the pipes are blocked. Remote-controlled vehicles can then remove and clean the blocked sections of pipe.
‘We’re trying to develop a new system where we can put in a pulse of a specific frequency that we could vary,’ Acoustek’s inventor Prof Barry Lennox told The Engineer.
‘If pumps and compressors are operating at a certain frequency then we can put our own pulse in at a different frequency so there’s less interaction with the different parts.’
The new technology, which will also help detect pressure waves in liquids as well as gases, will use a dedicated pressure transducer rather than a regular microphone to detect the reflected waves.
The EPSRC has provided around £100,000 to develop the new equipment, which is due to be completed by the middle of next year.
This follows around £600,000 of investment from the EPSRC, Pipeline Engineering and BP, which has used the system to scan blocked pipes in the North Sea.