ETTORE FRANCESCO BOMPARD

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Professore Ordinario

+39 0110907154 / 7154 (DENERG)

+39 0110907156 / 7156 (DENERG)

Gruppi di ricerca
Progetti di ricerca

Finanziati da bandi competitivi

  • PIATTAFORMA HW/SW multi-stakeholder per l'analisi e la pianificazione georeferenziata delle fonti energetiche rinnovabili, (Bompard, Corgnati, Boccardo, Spertino, Huang, Grosso,Arco,Ciocia.), (2020-2021) - Responsabile Scientifico

    Ricerca da Enti privati e Fondazioni

    ERC sectors

    PE6_3 - Software engineering, operating systems, computer languages

    SDG

    Obiettivo 12. Garantire modelli sostenibili di produzione e di consumo

    Abstract

    La piattaforma “RES-Plat” consente di analizzare, in modo integrato e in un’ottica di pianificazione energetica, gli impatti multi-dimensionali dello sfruttamento delle fonti energetiche rinnovabili (RES), con particolare riferimento a eolico e fotovoltaico ma con la possibilità di estendere, in una prospettiva di sviluppo, il campo di analisi ad altre tipologie di energie, rinnovabili e non. Lo strumento permette all’utente di avere immediata contezza, attraverso una rappresentazione cartografica interattiva, del potenziale sfruttabile, e di poter effettuare analisi mirate a diversa scala amministrativa territoriale (paese, regione, distretto), consentendogli di valutare la producibilità energetica, con granularità oraria, di diverse soluzioni tecnologiche e di ottenere valutazioni relative all’impatto finanziario dell’investimento effettuato e delle ricadute ambientali ad esso associate. Attraverso la piattaforma, è possibile costruire scenari alternativi (e compararli facilmente tra loro), in modo da avere una stima olistica dei loro potenziali costi e benefici e di poter rispondere in modo unitario a istanze diverse. Le ulteriori attività di sviluppo permetteranno l’estensione della copertura geografica (attualmente limitata a 32 paesi dell’area Mediterranea), con l’inserimento della mappatura delle aree marine e delle relative risorse energetiche e la possibilità di analizzare altre forme di energia rinnovabile (quali, ad esempio, l’energia mareomotrice e l’eolico offshore), e l’integrazione di ulteriori funzioni di libreria, dedicate a un approfondimento dell’analisi finanziaria dell’investimento e a quella delle sue possibili ricadute ambientali (ad esempio, con l’inclusione della valutazione degli effetti in termini di emissione di inquinanti atmosferici). Lo sviluppo pianificato ambisce inoltre a realizzare, in prospettiva, un sistema modulare, in cui singole piattaforme tematiche (sulle rinnovabili, su singole fonti fossili, ecc.) dialogano tra loro per consentire, attraverso uno strumento integrato, analisi ad ampio spettro nell’ambito della gestione dei sistemi energetici e della loro evoluzione verso la decarbonizzazione, fornendo così risposte sempre più customizzate alle istanze portate da diversi stakeholder.

    Paesi coinvolti

    • ITALIA

    Strutture interne coinvolte

  • Renewables in a Stable Electric Grid, (2016-2019) - Responsabile Scientifico

    Ricerca UE - H2020 - Societal Challenges - Energy

    Vedi la scheda del progetto su CORDIS

    Abstract

    Future energy systems will use renewable energy sources to minimise CO2 emissions. Currently large generators powered by fossil fuel turbines maintain the stability and quality of energy supplies through their inertia. The inertia of these generator-turbine groups gives providers a significant time window in which to react to network events. We urgently need to find ways to stabilise energy systems with up to 100% RES (where inertia is often lost due to power converter mediated energy transfer) to generate RE-SERVEs so that society can relax in the knowledge that it has a stable and sustainable energy supply. RE-SERVE will address this challenge by researching new energy system concepts, implemented as new system support services enabling distributed, multi-level control of the energy system using pan-European unified network connection codes. Near real-time control of the distributed energy network will be enabled by innovative 5G based ICT. Energy system use case scenarios supplied by energy providers will form the basis of energy system models. Performance characteristics of the new control mechanisms will be investigated through integration of energy simulations and live 5G communications. We will create a pan-European multi-site simulation test-bed, bringing together the best facilities in Europe.RE-SERVE results include published models of system support services, innovative architectures for the implementation of the services, performance tests on our pan-European real-time simulation, and live, test-beds, a model for pan-European unified network connection codes and actions to promote results to standardisation organisations, all of which maintain the RE-SERVE in energy systems. Commercialisation of results will result in breakthroughs in the efficient utilisation of use of RES, a spin-off and a wide range of enhanced professional solutions and services.

    Paesi coinvolti

    • Germania
    • Eire
    • Romania
    • Italia

    Enti/Aziende coinvolti

    • GRIDHOUND GMBH
    • ESB NETWORKS LTD
    • COMPANIA NATIONALA DE TRANSPORT ALENERGIEI ELECTRICE TRANSELECTRICA SA
    • UNIVERSITY COLLEGE DUBLIN, NATIONAL UNIVERSITY OF IRELAND, DUBLIN
    • WATERFORD INSTITUTE OF TECHNOLOGY
    • RHEINISCH-WESTFAELISCHE TECHNISCHE HOCHSCHULE AACHEN
    • CENTRUL ROMAN AL ENERGIEI - CRE
    • POLITECNICO DI TORINO
    • UNIVERSITATEA POLITEHNICA DIN BUCURESTI
    • FLEXIBLE ELEKTRISCHE NETZE FEN GMBH

    Strutture interne coinvolte

  • Innovative large-scale energy STOragE technologies AND Power-to-Gas concepts after Optimisation, (2016-2020) - Responsabile Scientifico

    Ricerca UE - H2020 - Societal Challenges - Energy

    Abstract

    This proposal is an application to the EU programme “Horizon 2020” and its topic “Large scale energy storage” (LCE-09-2015). The presented project “STORE&GO” will demonstrate three “innovative Power to Gas storage concepts” at locations in Germany, Switzerland and Italy in order to overcome technical, economic, social and legal barriers. The demonstration will pave the way for an integration of PtG storage into flexible energy supply and distribution systems with a high share of renewable energy. Using methanation processes as bridging technologies, it will demonstrate and investigate in which way these innovative PtG concepts will be able to solve the main problems of renewable energies: fluctuating production of renewable energies; consideration of renewables as suboptimal power grid infrastructure; expensive; missing storage solutions for renewable power at the local, national and European level. At the same time PtG concepts will contribute in maintaining natural gas or SNG with an existing huge European infrastructure and an already advantageous and continuously improving environmental footprint as an important primary/secondary energy carrier, which is nowadays in doubt due to geo-political reasons/conflicts. So, STORE&GO will show that new PtG concepts can bridge the gaps associated with renewable energies and security of energy supply. STORE&GO will rise the acceptance in the public for renewable energy technologies in the demonstration of bridging technologies at three “living” best practice locations in Europe.

    Paesi coinvolti

    • ITALIA

    Strutture interne coinvolte

  • SVPP, (2012-2014) - Responsabile Scientifico

    Ricerca Regionale

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • Regione Piemonte
    • ECOSTUDIO SRL

    Strutture interne coinvolte

  • SESAME - SECURING THE EUROPEAN ELECTRICITY SUPPLY AGAINST MALICIOUS AND ACCIDENTAL THREATS, (2011-2014) - Responsabile Scientifico

    Ricerca UE - VII PQ - COOPERATION - Security

    Vedi la scheda del progetto su CORDIS

    Abstract

    Threats for the supply of electricity have changed dramatically throughout the last decade: additional to the natural and accidental ones, the new threat of malicious attacks needs to be considered. Such attacks might be jointly imparted so as to affect large portions of the European grid, make repair difficult and cause huge societal impact. The outstanding importance and the far more complex level of interconnectivity of electricity distribution / transmission / generation – compared to the supply through other energy carriers - makes the development of a highly focused toolkit for its protection an essential and urgent task. SESAME develops a Decision Support System (DSS) for the protection of the European power system and applies it to two regional electricity grids, Austria and Romania. This DSS enables to:• identify the vulnerabilities and to detect their origins,• estimate the damage / impact of real or simulated network failures,• identify the possible measures for prevention of outages and acceleration of automatic restoration,• rank these measures according to their effectiveness and their cost-benefit ratios,• carry out contingency analyses of the transmission / distribution network and generation facilities,• detect long-term erroneous trends in the security of energy supply and counteract against them by adjusting the market mechanisms.There do not exist State-of-the-Art approaches incorporating all of these core dimensions of the problem: the increase in complexity of the security of energy supply requires a comprehensive and multi-disciplinary solution. SESAME brings together the most distinguished experts in the fields of power network security, technology policy and regulatory economics, impact assessment of disasters, network simulation software and knowledge engineering. All partners have proven their excellence in complex security research in earlier cooperative projects and most of them have already worked together successfully.

    Paesi coinvolti

    • Regno Unito
    • Romania
    • Austria
    • Spagna
    • Paesi Bassi
    • Belgio

    Enti/Aziende coinvolti

    • RS CONSULTING LIMITED
    • COMPANIA NATIONALA DE TRANSPORT ALENERGIEI ELECTRICE TRANSELECTRICA SA
    • ENERGIE-CONTROL GMBH
    • UNIVERSITY OF DURHAM
    • DELOITTE SL
    • INDRA SISTEMAS SA
    • HERIOT-WATT UNIVERSITY
    • DELOITTE ADVISORY SL
    • ENERGIEINSTITUT AN DER JOHANNES KEPLER UNIVERSITAT LINZ VEREIN
    • TECHNISCHE UNIVERSITEIT DELFT
    • JRC -JOINT RESEARCH CENTRE- EUROPEAN COMMISSION

    Strutture interne coinvolte

    • Dipartimento di Ingegneria Elettrica
  • ASSESSMENT OF TOPOLOGICAL VULNERABILITY OF INFRASTRUCTURAL SYSTEMS BASED ON EXTENDED COMPLEX NETWORK TECHNIQUES, (2011-2013) - Responsabile Scientifico

    Ricerca UE

    Paesi coinvolti

    • ITALIA
    • PAESI BASSI
    • SPAGNA

    Enti/Aziende coinvolti

    • STICHTING NEXT GENERATION INFRASTRUCTURES
    • UNIVERSITAT POMPEU FABRA
    • JRC INSTITUTE FOR ENERGY

    Strutture interne coinvolte

    • Dipartimento di Ingegneria Elettrica
  • ICOEUR-INTELLIGENT COORDINATION OF OPERATION AND EMERGENCY CONTROL OF EU AND RUSSIAN POWER GRIDS, (2009-2011) - Responsabile Scientifico

    Ricerca UE - VII PQ - COOPERATION - Energy

    Vedi la scheda del progetto su CORDIS

    Abstract

    The interstate integration of power grids provides multiple advantages concerning operation security, integration of renewable energy as well as energy trading. Due to this fact the UCTE interconnection expands continually since its establishment. Consideration is given to different scenarios of joint operation of UCTE and NORDEL with power grids on the territory of the former USSR. Due to the fact that such an interconnection is second to none in the World in terms of the scale and distance of the interconnection and number of countries involved, strong R&D and innovations are urgently required along with the recent development of technologies. Bulk power grids may encounter major blackouts, which originate in increasing complication in monitoring, operation and control of interconnected power grids as well as in limited knowledge of the total system state. Therefore the possible future interconnection between the European and Russian electricity transmission systems requires elaborating methods for monitoring, control and protection of large scale systems and especially for the support of their interconnections. The development and prototypically implementation of these new methods and tools is the major goal of the ICOEUR project. New technologies like Wide Area Monitoring, Control and Protection as well as advanced network controllers (FACTS) and HVDC systems will be considered. Envisioned ICOEUR goals can be achieved only in close cooperative work of experts, with extensive knowledge of EU and Russian power systems as well as manufacturers and network operators. The ICOEUR consortium involves leading experts in all these domains and guarantees efficient collaboration and knowledge required for testing the methodologies developed. The joint development of innovative monitoring, simulation and control concepts, tools and equipment through international diversified ICOEUR consortium and their prototype implementation will promote their adoptions.

    Paesi coinvolti

    • Federazione Russa
    • Svezia
    • Lettonia
    • Turchia
    • Regno Unito
    • Belgio
    • Svizzera
    • Italia
    • Slovenia
    • Estonia

    Enti/Aziende coinvolti

    • MELENTIEV ENERGY SYSTEMS INSTITUTE OF SIBERIAN BRANCH OF THE RUSSIAN ACADEMY OF SCIENCES
    • OAO NAUCHNO-TECHNICHESKIY CENTR ELECTROENERGETIKA
    • ABB POWER GRIDS SWEDEN AB
    • RIGAS TEHNISKA UNIVERSITATE
    • INSTITUTE OF POWER SYSTEMS
    • FIZIKALAS ENERGETIKAS INSTITUTS
    • INSTITUTE OF CONTROL SCIENCES OF THE RUSSIAN ACADEMY OF SCIENCES
    • TURKIYE ELEKTRIK ILETIM ANONIM SIRKETI
    • THE UNIVERSITY OF BIRMINGHAM
    • SUEZ-TRACTEBEL SA
    • ECOLE POLYTECHNIQUE FEDERALE DE LAUSANNE
    • TRACTEBEL ENGINEERING
    • HIGH VOLTAGE DIRECT CURRENT POWER TRANSMISSION RESEARCH INSTITUTE
    • TERNA - RETE ELETTRICA NAZIONALE SPA
    • FEDERAL STATE UNITARY ENTERPRISE ALL-RUSSIAN ELECTROTECHNICAL INSTITUTE NAMED AFTER V.I. LENIN
    • RICERCA SUL SISTEMA ENERGETICO - RSE SPA
    • POWER SYSTEM EMERGENCY CONTROL LABORATORY
    • POLITECNICO DI TORINO
    • ELPROS ELEKTRONSKI IN PROGRAMSKI SISTEMI DOO
    • ELES DOO SISTEMSKI OPERATER PRENOSNEGA ELEKTROENERGETSKEGA OMREZJA
    • TALLINNA TEHNIKAÜLIKOOL

    Strutture interne coinvolte

    • Dipartimento di Ingegneria Elettrica
  • NEXT-UNDERSTANDING MALICIOUS ATTACKS AGAINST INFRASTRUCTURES, (2008-2010) - Responsabile Scientifico

    Ricerca UE - (Progetti diversi)

    Paesi coinvolti

    • ITALIA
    • PAESI BASSI

    Enti/Aziende coinvolti

    • STICHTING NEXT GENERATION INFRASTRUCTURES

    Strutture interne coinvolte

    • Dipartimento di Ingegneria Elettrica
  • ECLEE - EUROPEAN-CHINESE LINK IN ELECTRICAL ENGENEERING, (2003-2006) - Responsabile Scientifico

    Ricerca UE - (Progetti diversi)

    Paesi coinvolti

    • BELGIO
    • ITALIA

    Enti/Aziende coinvolti

    • CEE - COMUNITÀ ECONOMICA EUROPEA -

    Strutture interne coinvolte

    • Dipartimento di Ingegneria Elettrica
  • Vedi altro

Finanziati da contratti commerciali

  • "Test di sistemi di smart charging per applicazioni vehicle-to-grid mediante tecnica RTS”, mirato alla definizione e realizzazione di un programma sperimentale dedicato all’analisi ed al test di sistemi di smart charging per applicazioni vehicle-to-grid (V2G), (2020-2021) - Responsabile Scientifico

    Ricerca Commerciale

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • EDISON S.p.A.

    Strutture interne coinvolte

  • Attività di ricerca relativa al supporto alla realizzazione, conduzione e sperimentazione di un impianto basato su tecnologia power to gas (PTG) per la produzione di gas rinnovabili (idrogeno e metano) in Sardegna, (2020-2022) - Personale interno di riferimento

    Ricerca Commerciale

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • ITALGAS S.P.A.

    Strutture interne coinvolte

  • Accordo di Partnership tra Politecnico di Torino e Terna S.p.A. , (2017-2022) - Membro di Comitato

    Accordi di Partnership

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • TERNA S.P.A.
  • Studio della resilienza della rete elettrica in ambito urbano, (2019-2020) - Responsabile Scientifico

    Ricerca Commerciale

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • IRETI S.P.A

    Strutture interne coinvolte

  • Update of a power system model for the baltic countries, (2016-2016) - Responsabile Scientifico

    Prestazione di Servizi commerciale

    Paesi coinvolti

    • ITALIA
    • PAESI BASSI

    Enti/Aziende coinvolti

    • EUROPEAN COMMISSION - Directorate - General Joint Research Centre
  • Accordo quadro (“Collaboration Agreement”) tra il Politecnico di Torino ed il Joint Research Center della Commissione Europea (“JRC”), per una collaborazione in ricerche, studi e formazione nel settore dell’energia e degli “smart energy systems”., (2016-2021) - Responsabile Scientifico

    Convenzioni

    Paesi coinvolti

    • ITALIA
    • PAESI BASSI

    Enti/Aziende coinvolti

    • JRC INSTITUTE FOR ENERGY
  • Vedi altro