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Autonomous robots patrol explosion risk areas

23rd October 2018


The risk of a petrol plant explosion or a potential disaster on an oil refinery could be dramatically reduced thanks to a new generation of tiny chemical sensors that use light and sound to ‘listen to’ gas leaks.

 
Fitted to an autonomous patrolling robot, the tiny ‘Photo-Acoustic’ gas sensors will be part of a wireless network continuously monitoring pipelines that can instantly identify petroleum, hydrogen sulphide and a number of toxic gases, before alerting operatives in an oil rig or chemical plant.
 
Current state of the art technologies can take anything up to 8 minutes per measurement and give off ‘false positives’ when detecting gas leaks. However, a group of EU researchers are exploiting new techniques that combine both photonic and acoustic technologies to positively identify a leak in milliseconds.
 
The multi-discipline consortium, calling themselves REDFINCH (or mid infraREd Fully Integrated CHemical sensors) have combined light together with sound to increase the detection sensitivity of the wavelength ‘fingerprint’ of a gas so that it can be positively identified. Project dissemination manager, David Williams explains, “To use a monitoring system where lives and expensive equipment are at stake, the ability to act instantaneously is paramount. Current detection technology using infrared systems is often large, bulky, slow, and the detectable wavelengths are restricted. By combining a number of different platforms, never considered before with automated gas detection, we have come up with the solution of Photonic Integrated Circuits used with micro Photo-Acoustic Sensors (PIC-μPAS).” 
 
As well as the wreckage and considerable expense, events like the Magodo Gas Plant Explosion in Nigeria (2015), the Port of Rizhao petrol plant explosion (2015) in China, and the Buncefield oil storage explosion in Hatfield, England (2005) can devastate communities, leaving a mark for generations.
 
“The REDFINCH consortium is developing Photonic Integrated Circuits (PICs), using hybrid and monolithic integration of III-V diode and Interband Cascade/Quantum Cascade materials with silicon to create high performance, cost effective sensors. Essentially using light and sound together allows us to produce a more specific detection and to be more accurate.”
 
The REDFINCH team believe they can create a detector that is several times cheaper and more robust than existing technologies.
 
“By integrating all the components, such as the laser, the detector and the sensing chamber all onto one single chip, we reduce the possible points of failure and more importantly, the ‘noise’ ratio to improve the sensing capabilities. Shifting everything onto one silicon chip makes things more convenient and less expensive,” said Williams.
 
The developed sensors can be quickly scaled up to volume production using the mirPHAB pilot line, an Horizon 2020 funded pilot line for mid-infrared PIC development in Europe, which also closely involves a number of REDFINCH partners.
 
 
Not only restricted to oil and gas refineries, the REDFINCH sensor is being developed to be used as a protein analysis sensor within the dairy industry, installed as an in-line monitor on the collection tanker.
 
Participants from five European countries include: CEA-Leti (France, Coordinators); Cork Institute of Technology (Ireland); The University of Montpellier, MIRSENSE (France); Argotech (Czech Republic); Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung, Endress+Hauser process solutions (deutschland) GMBH (Germany); Technische Universitaet Wien (Austria).
 







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