HYPERWIND Project: global and systemic monitoring of offshore renewable power systems - METEODYN
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HYPERWIND Global and systemic monitoring of offshore renewable power systems What is the project? How to reach this goal? Which are the deliveries of HYPERWIND? Ÿ Provide a hyper vision system for renewable power farms Offshore and Onshore. Ÿ Provide a comprehensive and systemic monitoring system of all plants components associated with a global model to take into account, very early, the discrete signals. Ÿ Provide a reliable remote monitoring system and easy to interpret by end users. Ÿ Development of a methodology of construcon of models and indicators on various machines including other domains of the Marine Renewable Energies. Ÿ Present a demonstrator on a wind turbine equipped and funconal (onshore wind) HyperWind is a project to develop a comprehensive monitoring system for Offshore and On Shore wind turbines. This system is composed of various sub- systems (blade system monitoring, SHM on gearboxes, SHM shaing line, ...) interconnected with a global and systemic vision of wind turbine and its relave posioning to known points of dysfuncon. This project intends to propose the construcon of a methodology for modeling system behavior and so high levels indicators and its implementaon using a prototype of a pilot plant. The goal is to provide operators of a wind plant a systemic and dynamic view of their facilies and the plant as a whole. The assumpon here is such that the overall integraon of complete system will refine the understanding of dysfuncons or alteraons and this as soon as possible. Moreover, this global integraon and its interpretaon via a set of models will guide the control strategy of the system. And, more generally, this system will adapt the control strategy of the plant funcon of external system constraints (energy demand, evoluon of the primary resource .... ) but also the velocity of signal evoluon as possible malfuncons expressing. HYPERWIND benefit from the support of: Dominique FOLLUT, PhD R&D Director KEOPS Performance Group [email protected] Meteodyn, internaonal expert in wind engineering and climatology, brings together a team of specialist in fluid mechanics, I.T., Meteorology and Stascs. Computaons and simulaons of the climate take into account effects of all kinds of terrains and environments at every spaal scales, in real me or days ahead. The DUKe (Data User Knowledge) research group, part of the LINA laboratory (UMR CNRS 6241), University of Nantes, aims at proposing querying, mining and learning techniques that take into account (1) data types (relaonal, spaal, graphical, temporal, stream, etc.), uncertainty, privacy or (2) expert knowledge or user interacons through adapted visual supports Developer of performance, KEOPS Automaon specialises in the automaon and monitoring of industrial processes. By the supply of turnkey systems and expert services, KEOPS Automaon improves the producvity of industrial installaons. École des Mines de Nantes – a public body of higher educaon and research – is associated with four CNRS and one EA joint research units. Both fundamental and applicaon-oriented research is designed for use in business and in society, through research contracts, and technology transfer, and public awareness. We develop and engineer cung-edge and peerlessly reliable products in the fields of defence and space. Our constant ambion is to connect and protect lives. Nowhere are technology and engineering requirements more stringent and demanding than in the fields of defence, security and space exploitaon. Airbus Defence and Space unites a range of capabilies and skills unrivalled anywhere in the world. Net-Wind is an independent company posioned on the windmills maintenance market with a full-service or speciality-service offering. Our ambion is to listen to our customer requirements and to offer a high quality service within the deadlines. Contact: Relevant raw datas Filtered datas Aggregation model of of the weak signals Data for Follow-up High level indicators Bayesian model of facts-causes association LiBalanced list of the likely failures Management model of maintenance constraints Probabilistique calculation of temporal evolution Board for sequencing the tasks Seasonal statistics Operational forecast (5 days) Local corrected meteo data Model of micro-climatic correction Local setting-up model Meteo forecast flow Piloting installations and maintenance Action Preventive maintenance Safety management Power management (loss of production) AMDEC
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Transcript of HYPERWIND Project: global and systemic monitoring of offshore renewable power systems - METEODYN
HYPERWINDGlobal and systemic monitoringof offshore renewable power systems
What is the project?
How to reach this goal? Which are the deliveries of HYPERWIND?Ÿ Provide a hyper vision system for renewable power farms Offshore and Onshore.Ÿ Provide a comprehensive and systemic monitoring system of all plants components
associated with a global model to take into account, very early, the discrete signals.Ÿ Provide a reliable remote monitoring system and easy to interpret by end users.Ÿ Development of a methodology of construc�on of models and indicators on various
machines including other domains of the Marine Renewable Energies.Ÿ Present a demonstrator on a wind turbine equipped and func�onal (onshore wind)
HyperWind is a project to develop a comprehensive monitoring system for Offshore and On Shore wind turbines. This system is composed of various sub-systems (blade system monitoring, SHM on gearboxes, SHM sha�ing line, ...) interconnected with a global and systemic vision of wind turbine and its rela�ve posi�oning to known points of dysfunc�on.
This project intends to propose the construc�on of a methodology for modeling system behavior and so high levels indicators and its implementa�on using a prototype of a pilot plant.
The goal is to provide operators of a wind plant a systemic and dynamic view of their facili�es and the plant as a whole. The assump�on here is such that the overall integra�on of complete system will refine the understanding of dysfunc�ons or altera�ons and this as soon as possible. Moreover, this global integra�on and its interpreta�on via a set of models will guide the control strategy of the system. And, more generally, this system will adapt the control strategy of the plant func�on of external system constraints (energy demand, evolu�on of the primary resource .... ) but also the velocity of signal evolu�on as possible malfunc�ons expressing.
HYPERWIND benefit from the support of:
Dominique FOLLUT, PhDR&D DirectorKEOPS Performance [email protected]
Meteodyn, interna�onal expert in wind engineering and climatology, brings together a team of specialist in fluid mechanics, I.T., Meteorology and Sta�s�cs.Computa�ons and simula�ons of the climate take into account effects of all kinds of terrains and environments at every spa�al scales, in real �me or days ahead.
The DUKe (Data User Knowledge) research group, part of the LINA laboratory (UMR CNRS 6241), University of Nantes, aims at proposing querying, mining and learning techniques that take into account (1) data types (rela�onal, spa�al, graphical, temporal, stream, etc.), uncertainty, privacy or (2) expert knowledge or user interac�ons through adapted visual supports
Developer of performance, KEOPS Automa�on specialises in the automa�on and monitoring of industrial processes. By the supply of turnkey systems and expert services, KEOPS Automa�on improves the produc�vity of industrial installa�ons.
École des Mines de Nantes – a public body of higher educa�on and research – is associated with four CNRS and one EA joint research units. Both fundamental and applica�on-oriented research is designed for use in business and in society, through research contracts, and technology transfer, and public awareness.
We develop and engineer cu�ng-edge and peerlessly reliable products in the fields of defence and space. Our constant ambi�on is to connect and protect lives.Nowhere are technology and engineering requirements more stringent and demanding than in the fields of defence, security and space exploita�on. Airbus Defence and Space unites a range of capabili�es and skills unrivalled anywhere in the world.
Net-Wind is an independent company posi�oned on the windmills maintenance market with a full-service or speciality-service offering.Our ambi�on is to listen to our customer requirements and to offer a high quality service within the deadlines.
Contact:
Relevant rawdatas
Filtered datas
Aggregation modelof of the weak signals
Data for Follow-up
High level indicators
Bayesian model of facts-causes association
LiBalanced listof the likely failures
Management model ofmaintenance constraints
Probabilistique calculationof temporal evolution
Board for sequencing the tasks
Seasonal statistics
Operationalforecast(5 days)
Local corrected meteo data
Model of micro-climaticcorrection
Local setting-up model
Meteo forecast flow
Piloting installationsand maintenance
Action
Preventive maintenance
Safety management
Powermanagement
(loss of production)
AMDEC
