Edukad projektid

eesti keeles / in English

Intelligent Monitoring System based on Acoustic Emissions Sensing for Plant Condition Monitoring and Preventative Maintenance

acronym: MOSYCOUSIS
start: 2011-10-01
end: 2013-09-30
 
programme: FP7 - Euroopa Liidu 7. raamprogramm
sub-programme: SME - Väikese ja keskmise suurusega ettevõtetele suuantud teadustegevused (VKEd)
instrument: BSG-SME - Teadustöö VKE huvides
call identifier: FP7-SME-2011
project number: 285848
duration in months: 24
partner count: 8
 
abstract: Unexpected failure in an industrial production chain does not only involve the costs of failed parts replacement and the associated man-hour labour, but downtime costs have also have to be considered. To keep a machine functioning well it is a must to have good predictive maintenance, as it helps to reduce operating risk, avoids plant failures, provides reliable equipment, reduces operating costs, eliminates defects in operating plant and maximises production. Acoustic Emission (AE) is a phenomenon of transient elastic wave generation in materials under stress. When the material is subjected to stress at a certain level, a rapid release of strain energy takes place in the form of elastic wave which can be detected by transducers placed on it. Plastic deformation and growth of cracks are among the main sources of AE in metals. Though AE can came form any system under movement, the main source is doubtlessly from rotating machinery. Sources of AE in rotating machinery include impacting, cyclic fatigue cracks, friction, turbulence, material loss, cavitation, leakage, etc. In most cases the SMEs machine owner would be satisfied with a simple affordable device that is able to warn them from critical equipment failure. Recent developments in sensing technology, microprocessors, and miniaturised radio transceivers has enabled a new generation of Wireless Sensors Networks. The future of these sensors is to have an ubiquitous sensing nodes that will autonomously report on operating conditions, and that this data will be used to facilitate structural health monitoring, embedded test & evaluation, and condition based maintenance of critical industrial rotating machinery without the use of expensive cabling. In addition, in order to provide sensing networks which are truly autonomous, chemical batteries must be eliminated from the sensor and some kind of energy harvesting has to be foreseen. Piezoelectric materials have demonstrated their ability to convert vibration energy from vibrating machinery and rotating structures into electrical energy for powering a wireless sensing node. Hence, an acoustic emission self-powered wireless sensor is one of the main objectives to be achieved in this project. The sensor will measure using frequency as opposed to time which is an advancement from the state of the art.
partner no and role partner name country contact person web page
1 coordinator FUNDACIO CTM CENTRE TECNOLOGIC ES Jorge Garza http://www.ctm.com.es
2 partner UNIVERSITAT POLITECNICA DE CATALUNYA ES Cristina Costa http://www.upc.edu
3 partner SITEX 45 SRL RO Dumitru Ulieru
4 partner UNIVERSITY COLLEGE CORK, NATIONAL UNIVERSITY OF IRELAND, CORK IE Michael Hayes http://www.ucc.ie
5 partner ARDORAN OÜ EE Douglas Reid
6 partner PRZEDSIEBIORSTWO BADAWCZO-PRODUKCYJNE OPTEL SP ZOO PL Wieslaw Bicz http://www.optel.eu
7 partner ELECTROARGES SA RO Vasile Gloescu http://www.electroarges.ro
8 partner WIRE-LITE SENSORS LTD IE Michael Phelan http://www.endeco-technologies.com/