Descrizione del progetto
Rendere i sistemi del ciclo Rankine a fluido organico più efficienti e adattabili
Sedici partner provenienti da 10 paesi lavoreranno congiuntamente per dimostrare il potenziale della tecnologia basata sul ciclo Rankine a fluido organico (ORC, organic Rankine cycle) per il recupero del calore residuo in tutti i settori dell’industria europea. Il progetto DECAGONE, finanziato dall’UE, svilupperà una tecnologia innovativa per lo sfruttamento del calore residuo industriale rendendo i sistemi OCR più efficienti, economici e adattabili a settori maggiormente diversificati. Questo impegno è particolarmente importante, alla luce del fatto che un terzo dell’energia utilizzata per i processi termici industriali viene persa in qualità di calore residuo. Secondo il progetto, le potenzialità di generazione di energia a partire da questa risorsa mediante un impiego completo della tecnologia di OCR rappresentano un risparmio pari a circa 7,6 tonnellate di CO2 equivalente all’anno a livello europeo.
Obiettivo
Energy efficiency of intensive industrial processes and particularly waste heat recovery technologies have been identified by international and regional organization like IEA, EU or ADEME in France as a major game changer for CO2 emissions reduction. The DECAGONE consortium led by ENERTIME proposes a project demonstrating the potential of ORC technology in waste heat-to-power conversion for self-consumption of industrial plants at a large industrial scale.
Targeting the waste heat potential of the company TŘINECKÉ ŽELEZÁRNY (mother company of partner Energetika Trinec), located in Czech Republic and historical manufacturer of iron & steel, the DECAGONE project will develop a an innovative ORC-based WHR system using enhanced capture designs and disruptive turbomachinery. The proposed hermetic turbogenerator design will run on innovative active magnetic bearings for increased compacity, higher availability and safety and cost reduction with near-zero maintenance. Dedicated studies improve organic fluids or mixtures for higher stability and improved transposability to other industries. The project will also provide advanced monitoring using innovative probes, IOT and machine learning algorithms for real-time efficiency improvement.
Within the scope of the project at 6 others significant industrial sectors will be evaluated in terms of potential market and transposability at the European scale (aluminum, gas-energy, oil&gas, glass, LNG and cogeneration). New financing and business models will also be investigated, supporting long term operations of the erected assets, coping with long-lasting and resilient industrial processes. The use of the ESCO model to contract, finance and operate energy efficiency facilities will be part of the Project preparing for the future operation of the facility by a specialized company. Lastly diffusion of good practices all over Europe will use European partners in the consortium in coordination with Regional energy agencies.
Campo scientifico
- natural sciencescomputer and information sciencesinternetinternet of things
- engineering and technologyelectrical engineering, electronic engineering, information engineeringelectrical engineeringpower engineeringelectric power generationcombined heat and power
- social scienceseconomics and businessbusiness and managementbusiness models
- engineering and technologymaterials engineering
- natural sciencescomputer and information sciencesartificial intelligencemachine learning
Parole chiave
Programma(i)
Argomento(i)
Meccanismo di finanziamento
HORIZON-IA - HORIZON Innovation ActionsCoordinatore
92400 Courbevoie
Francia
L’organizzazione si è definita una PMI (piccola e media impresa) al momento della firma dell’accordo di sovvenzione.