MASSIMO SANTARELLI

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Professore Ordinario (L.240)

Vice-Coordinatore (Collegio di Dottorato ENERGETICA)

+39 0110903743 / 3743 (DENERG)

+39 0110904487 / 4487 (DENERG)

Gruppi di ricerca Gruppo di Ricerca M3ES
Progetti di ricerca

Finanziati da bandi competitivi

  • Fast charge effects in Aging of quasi Solid sTate battery cells, (2021-2022) - Responsabile Scientifico

    Ricerca da Enti privati e Fondazioni

    ERC sectors

    PE8_6 - Energy processes engineering

    SDG

    Obiettivo 7. Assicurare a tutti l’accesso a sistemi di energia economici, affidabili, sostenibili e moderni

    Abstract

    Fast charge effects in Aging of quasi Solid sTate battery cells

    Paesi coinvolti

    • ITALIA

    Strutture interne coinvolte

  • SustainaBlE SoluTions FOR recycling of end of life Hydrogen technologies, (2021-2023) - Responsabile Scientifico di Struttura

    Ricerca UE - JTI - FCH

    ERC sectors

    PE5_2 - Solid state materials

    SDG

    Obiettivo 12. Garantire modelli sostenibili di produzione e di consumo

    Abstract

    Hydrogen is becoming more and more a realistic solution contributing to the decarbonization of our economy. As demand for hydrogen technology increases, more and more devices become in use and will eventually end up in the waste stream, requiring therefore handling in a sustainable manner. The issue is not only ensuring a correct disposal path within a clear regulatory context, but also ensuring the full recovery of the critical materials used. This is crucial not only for ensuring the new hydrogen technologies and devices have a lower environmental impact than their counterparts over the whole life cycle but also for recirculating extremely precious and rare materials supporting the whole hydrogen economy delivery, literally. Current and previous experience on end of life of components with similar levels of technical complexity, economic dependency and potential environmental impact (from batteries to electronic equipment, both identified as areas of action from the latest Circular Economy Action Plan) shows that waste prevention and management starts from the design of the component and that work needs to be directed also towards prolonging the life of the devices and ensuring they can be dismantled for reuse and ease of recycling. In addition, recycled material should be used to manufacture new devices without loss of performance and as much as possible at lower environmental and economic cost. This is however possible only if such material can be delivered by a reliable supply chain that adopts environmentally and economically viable recycling technologies.

    Strutture interne coinvolte

  • Development of innovative thermal model to predict ageing of high energy batteries for EVs, (2020-2021) - Responsabile Scientifico

    Ricerca da Enti privati e Fondazioni

    ERC sectors

    PE7_2 - Electrical engineering: power components and/or systems

    SDG

    Obiettivo 7. Assicurare a tutti l’accesso a sistemi di energia economici, affidabili, sostenibili e moderni

    Abstract

    Objective 1 description: Development of a electrochemical-thermal model suitable for commercial high voltage cellsObjective 2 description: Validation of the model through electrochemical and thermal testing of commercial high voltage cellsObjective 3 description: Use of data coming from ULTRAENER BAT project to evaluate the real possibility and advantages in substituting graphite with metallic lithium to get a safe and high energy density cell

    Strutture interne coinvolte

  • NewSOC - Next Generation solid oxide fuel cell and electrolysis technology, (2020-2023) - Responsabile Scientifico

    Ricerca UE - JTI - FCH

    Vedi la scheda del progetto su CORDIS

    Abstract

    The EU has the long-term goal to reduce greenhouse gas emissions by 80% to 95% compared to 1990 levels by 2050, mainly by introducing more shares of renewable energy sources in the EU energy systems. Solid oxide technologies (SOC: SOFC & SOE) are key enabling technologies for allowing for such integration. They are an efficient link between sectors: power, gas, heat. SOC can therefore emerge as key players in the energy transition in many concepts, such as fuel/gas to power and heat at small to large scale, energy storage through power to hydrogen/fuel, utilisation and upgrading of biogas, balancing of intermittent electricity from renewable sources through load following and reversible operation, and central and decentral solutions for electricity and heat production.The NewSOC project aims at significantly improving performance, durability, and cost competitiveness of solid oxide cells & stacks compared to state-of-the-art (SoA). In order to achieve these goals, NewSOC proposes twelve innovative concepts in the following areas: (i) structural optimisation and innovative architectures based on SoA materials, (ii) alternative materials, which allow for overcoming inherent challenges of SoA, (iii) innovative manufacturing to reduce critical raw materials and reduction of environmental footprint at improved performance & lifetime.The NewSOC project will validate the new cells & stacks at the level of large cells with > 50 cm2 active area and short-stacks in close collaboration with industry thereby moving the technology readiness level from 2 to 4. Six major European SOC manufacturers are part of the consortium, representing a large range of SOC concepts and product & market strategies. Industry partners will take the lead for providing a path how to increase the TRL level beyond the project period towards TRL of 6. The NewSOC project will evaluate the new SOC materials and fabrication processes according to life cycle impact and cost assessment.

    Paesi coinvolti

    • Italia
    • Grecia
    • Estonia
    • Paesi Bassi
    • Finlandia
    • Francia
    • Germania
    • Svizzera
    • Spagna
    • Regno Unito
    • Polonia

    Enti/Aziende coinvolti

    • UNIVERSITA DEGLI STUDI DI SALERNO
    • ETHNIKO KENTRO EREVNAS KAI TECHNOLOGIKIS ANAPTYXIS
    • AKTSIASELTS ELCOGEN
    • NEDERLANDSE ORGANISATIE VOOR TOEGEPAST NATUURWETENSCHAPPELIJK ONDERZOEK TNO
    • SOLIDPOWER SPA
    • TEKNOLOGIAN TUTKIMUSKESKUS VTT OY
    • COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES
    • SUNFIRE GMBH
    • IDRYMA TECHNOLOGIAS KAI EREVNAS
    • ECOLE POLYTECHNIQUE FEDERALE DE LAUSANNE
    • FUNDACIO INSTITUT DE RECERCA DE L'ENERGIA DE CATALUNYA
    • CERES POWER LIMITED
    • HEXIS AG
    • POLITECNICO DI TORINO
    • INSTYTUT ENERGETYKI

    Strutture interne coinvolte

  • ComSos - Commercial-scale SOFC systems, (2018-2022) - Responsabile Scientifico

    Ricerca UE - JTI - FCH

    Vedi la scheda del progetto su CORDIS

    Abstract

    The ComSos project aims at strengthening the European SOFC industrys world-leading position for SOFC products in the range of 10-60 kW totally 450 kWe. Through this project, manufacturers prepare for developing capacity for serial manufacturing, sales and marketing of mid FC CHP products. All manufacturers will validate new product segments in collaboration with the respective customers and confirm product performance, the business case and size, and test in real life the distribution channel including maintenance and service. In function of the specific segments, the system will be suitable for volumes from few 10s to several 1,000 systems per year.The key objective of the ComSos project is to validate and demonstrate fuel cell based combined heat and power solutions in the mid-sized power ranges of 10-12 kW, 20-25 kW, and 50-60 kW (referred to as Mini FC-CHP). The outcome gives proof of the superior advantages of such systems, underlying business models, and key benefits for the customer. The technology and product concepts, in the aforementioned power range, has been developed in Europe under supporting European frameworks such as the FCH-JU.The core of the consortium consists of three SOFC system manufacturers aligned with individual strategies along the value chain: Convion (two units of 60kWe each), SOLIDpower (15 units of 12kWe each) and Sunfire (6-8 units of 25kWe each). End-users and distributors have also expressed strong interest in the products, and will be actively involved in the ComSos project by participation in the Advisory Board.

    Paesi coinvolti

    • Paesi Bassi
    • Italia
    • Germania
    • Finlandia
    • Svizzera

    Enti/Aziende coinvolti

    • ENERGY MATTERS BV
    • SOLIDPOWER SPA
    • SUNFIRE GMBH
    • POLITECNICO DI TORINO
    • CONVION OY
    • SOLIDPOWER SA

    Strutture interne coinvolte

  • TeacHy - Teaching Fuel Cell and Hydrogen Science and Engineering Across Europe within Horizon 2020, (2017-2022) - Responsabile Scientifico

    Ricerca UE - JTI - FCH

    Vedi la scheda del progetto su CORDIS

    Abstract

    As the FCHT industry gradually emerges into the markets, the need for trained staff becomes more pressing. TeacHy2020 specifically addresses the supply of undergraduate and graduate education (BEng/BSc, MEng/MSc, PhD etc.) in fuel cell and hydrogen technologies (FCHT) across Europe.TeacHy 2020 will take a lead in building a repository of university grade educational material, and design and run an MSc course in FCHT, accessible to students from all parts of Europe. To achieve this, the project has assembled a core group of highly experienced institutions working with a network of associate partners (universities, vocational training bodies, industry, and networks). TeacHy2020 offers these partners access to its educational material and the use of the MSc course modules available on the TeacHy2020 site. Any university being able to offer 20% of the course content locally, can draw on the other 80% to be supplied by the project.This will allow any institution to participate in this European initiative with a minimised local investment. TeacHy2020 will be offering solutions to accreditation and quality control of courses, and support student and industry staff mobility by giving access to placements. Schemes of Continuous Professional Development (CPD) will be integrated into the project activities. We expect a considerable leverage effect which will specifically enable countries with a notable lack of expertise, not only in Eastern Europe, to quickly be able to form a national body of experts.TeacHy will offer educational material for the general public (e.g. MOOCs), build a business model to continue operations post-project, and as such act as a single-stop shop and representative for all matters of European university and vocational training in FCHT. The project partnership covers the prevalent languages and educational systems in Europe. The associated network has over 20 partners, including two IPHE countries, and a strong link to IPHE activities in education.

    Paesi coinvolti

    • Francia
    • Svizzera
    • Repubblica Ceca
    • Belgio
    • Ucraina
    • Germania
    • Italia
    • Danimarca
    • Romania
    • Regno Unito
    • Paesi Bassi

    Enti/Aziende coinvolti

    • INSTITUT POLYTECHNIQUE DE GRENOBLE
    • ECOLE POLYTECHNIQUE FEDERALE DE LAUSANNE
    • VYSOKA SKOLA CHEMICKO-TECHNOLOGICKA V PRAZE
    • UNIVERSITE LIBRE DE BRUXELLES
    • NATIONAL TECHNICAL UNIVERSITY OF UKRAINE IGOR SIKORSKY KYIV POLYTECHNIC INSTITUTE
    • KARLSRUHER INSTITUT FUER TECHNOLOGIE
    • POLITECNICO DI TORINO
    • DANMARKS TEKNISKE UNIVERSITET
    • UNIVERSITATEA POLITEHNICA DIN BUCURESTI
    • UNIVERSITY OF ULSTER
    • TECHNISCHE UNIVERSITEIT DELFT

    Strutture interne coinvolte

  • BRISK II - Biofuels Research Infrastructure for Sharing Knowledge II, (2017-2022) - Responsabile Scientifico

    Ricerca UE - H2020 - Excellent Science - Research infrastructures

    Vedi la scheda del progetto su CORDIS

    Abstract

    The vision of BRISK II is to establish a centre of excellence in the field of 2nd and 3rd generation biofuels via the uniting of leading European research infrastructures. Building upon the success of its FP7 predecessor, BRISK II Networking Activities will consolidate knowledge in the field, reaching out to a wide set of stakeholders and potential users. Databases generated within the project will serve as a valuable resource for academia and industry. The business plan will boost momentum beyond H2020 so that the research infrastructures can be utilised between framework programmes or even independently. Joint Research Activities will yield a manifold improvement in the characterisation of feedstocks for thermochemical and biochemical conversion processes, tying micro-scale and macro-scale phenomena in novel ways. Enhanced measurement techniques will lead to significant gains in process flexibility and reliability. New biorefining approaches are intended to explore novel process combinations, ones that cannot be tested without a concerted effort between project partners. Assimilated data and knowledge will be input to simulation tools for use in a broad spectrum of analyses. Transnational Access supports the biofuels research community through the availability of high-quality installations within a well-structured framework.

    Paesi coinvolti

    • Austria
    • Grecia
    • Paesi Bassi
    • Norvegia
    • Finlandia
    • Italia
    • Portogallo
    • Germania
    • Spagna
    • Regno Unito

    Enti/Aziende coinvolti

    • BEST - BIOENERGY AND SUSTAINABLE TECHNOLOGIES GMBH
    • TECHNISCHE UNIVERSITAET GRAZ
    • ETHNIKO KENTRO EREVNAS KAI TECHNOLOGIKIS ANAPTYXIS
    • NEDERLANDSE ORGANISATIE VOOR TOEGEPAST NATUURWETENSCHAPPELIJK ONDERZOEK TNO
    • STIFTELSEN SINTEF
    • TEKNOLOGIAN TUTKIMUSKESKUS VTT OY
    • SINTEF AS
    • AGENZIA NAZIONALE PER LE NUOVE TECNOLOGIE, L'ENERGIA E LO SVILUPPO ECONOMICO SOSTENIBILE
    • Laboratorio Nacional de Energia e Geologia I.P.
    • KARLSRUHER INSTITUT FUER TECHNOLOGIE
    • STICHTING ENERGIEONDERZOEK CENTRUM NEDERLAND
    • POLITECNICO DI TORINO
    • FUNDACION CENER
    • TECHNISCHE UNIVERSITEIT DELFT
    • STICHTING WAGENINGEN RESEARCH
    • ASTON UNIVERSITY

    Strutture interne coinvolte

  • CO2 Circle Lab, (2018-2021) - Responsabile Scientifico

    Ricerca Regionale

    Abstract

    La gestione delle emissioni di CO2 di origine antropica nell’atmosfera è certamente una sfida attuale, ma èanche un potenziale e straordinario promotore di innovazione, sia a livello di ricerca che di sviluppotecnologico ed industriale. Nell’ottica di un’economia sostenibile, IIT e Politecnico di Torino propongono ilpotenziamento dei laboratori preesistenti presso Politecnico di Torino e Environment Park, attraverso laconfigurazione di una infrastruttura (IR) che promuova l’incontro tra ricerca fondamentale e applicata,attivando e consolidando collaborazioni di alto valore scientifico e tecnologico con molteplici settoriindustriali. L’IR si focalizzerà sullo sviluppo di processi biotecnologici, elettrochimici e termochimiciinnovativi, per la formazione di prodotti ad elevato valore aggiunto da materie prime rinnovabili (CO2,biomasse), garantendo una gestione dei processi sostenibile, ricorrendo alla modellizzazione di scenari peruna solida analisi delle strategie energetiche.

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • FONDAZIONE ISTITUTO ITALIANO DI TECNOLOGIA

    Strutture interne coinvolte

    • Ricerca
    • Trasferimento Tecnologico e Relazioni con l'Industria
  • Remote area Energy supply with Multiple Options for integrated hydrogen-based TEchnologies, (2018-2021) - Responsabile Scientifico

    Ricerca UE - JTI - FCH

    Vedi la scheda del progetto su CORDIS

    Abstract

    REMOTE will demonstrate technical and economic feasibility of two fuel cells-based H2 energy storage solutions (integrated P2P system; non-integrated P2GG2P system), deployed in 4 DEMOs, based on renewables, in isolated micro-grid or off grid remote areas. DEMO 1: Ginostra (South Italy): off-grid configuration (island); RES based on hybrid system with PV- generators; residential loads on-site; almost complete substitution of fossil fuels. End-user: ENEL Green Power utility;DEMO 2: (Greece): isolated micro-grid application; RES based on hydro generators; industrial (SME) loads onsite; complete substitution of fossil fuels; avoid costs for new transmission line. End-user: Horizon SA owner of hydro plant; DEMO 3: Ambornetti (North Italy): off-grid configuration (remote Alps); RES based on hybrid system with PV-biomass CHP generators; residential loads on-site; complete substitution of fossil fuels. End-user: IRIS stakeholder of the hamlet;DEMO 4: Nordic Island (Norway): isolated micro-grid application; RES based on hybrid system with PV-wind generators; residential loads fish industry on-site; complete substitution of fossil fuels; avoid costs for new transmission line. End-user: Trnder Energi utility. VALIDATE the 4 DEMO units, to enable suppliers, end-users and general stakeholders to gain experience throughout the value chain of the energy storage; DEMOSTRATE the added value of the fuel cell-based H2 energy storage solutions with respect to alternative technologies in terms of economics, technical and environmental benefits; VALIDATE EU-based sub-MW P2P manufacturing solutions to fill the gap in the European energy storage sector while utilising the existing EU know-how already developed in previous consortium among partners; EXPLOITATION and BUSINESS scenarios for the replication of P2P solutions, considering different typologies of micro-grids (isolated or not); DISSEMINATION, build up confidence among stakeholders and raise public interest.

    Paesi coinvolti

    • Italia
    • Grecia
    • Danimarca
    • Norvegia
    • Belgio
    • Francia

    Enti/Aziende coinvolti

    • IRIS SRL
    • ETHNIKO KENTRO EREVNAS KAI TECHNOLOGIKIS ANAPTYXIS
    • ORIZWN ANONYMH TECHNIKI ETAIREIA
    • BALLARD POWER SYSTEMS EUROPE AS
    • STIFTELSEN SINTEF
    • HYDROGENICS EUROPE NV
    • POWIDIAN
    • SINTEF AS
    • ENEL GREEN POWER SPA
    • ENGIE EPS ITALIA S.R.L.
    • TRONDERENERGI AS

    Strutture interne coinvolte

  • DEMOnstration of large SOFC system fed with biogas from WWTP, (2015-2020) - Responsabile Scientifico

    Ricerca UE - JTI - FCH

    Abstract

    From the point of view of energy policy, the European Strategic Energy Technology (SET) Plan for 2020 identifies Strategic Technologies Focus on the following priorities:• Energy Efficiency: high efficiency conversion devices represent elements of a higher efficiency portfolio• Renewable Energy: traditional RES (solar, wind, hydro) but also biogenous fuels (biogas, bio-syngas, bio-fuels) and new synthetic vectors (H2, synthetic NG,….)• Carbon capture and storage: mitigation of CO2 emissions (related to efficient energy conversion devices, and improved adoption of RES fuels) and CO2 recovery• Smart Grid: large topic, in which several technologies are included (energy storage, ICT intelligence of the grid, prosumer….), among which the concept of distributed CHP plant gets an important roleDEMOSOFC objectives1. DEMO and deep analysis of an innovative solution of distributed CHP system based on SOFC, with high interest in the industrial/commercial application representing the best solution in the sub-MW distributed CHP in terms of efficiency and emissions2. DEMO of a distributed CHP system fed by a biogenous CO2 neutral fuel: biogas from anaerobic digestion 3. DEMO in a real industrial installation 4. DEMO of the high achievements of such systems: electrical efficiency, thermal recovery, low emissions, plant integration, economic interest for best use of renewable fuels in a future of decreasing incentives5. EXPLOITATION and BUSINESS analysis of replication of this type of innovative energy systems6. DISSEMINATION of the high interest (energy and economic) of such systems

    Paesi coinvolti

    • ITALIA

    Strutture interne coinvolte

  • BioSOFC - Installazione di impianto SOFC CHP alimentato a biogas da WWTP, (2014-2015) - Responsabile Scientifico

    Ricerca Regionale - Poli di Innovazione

    Abstract

    Lo Studio di Fattibilità si propone di valutare la sostenibilità e dunque la perseguibilità energetica, economica ed ambientale di un impianto alimentato a biogas che utilizzi celle a combustibile ad ossidi solidi (SOFC) per la produzione di energia elettrica ad alta efficienza in assetto cogenerativo

    Paesi coinvolti

    • ITALIA

    Strutture interne coinvolte

  • MARS-EV: Materials for Ageing Resistant Li-ion High Energy Storage for the Electric Vehicle, (2013-2017) - Responsabile contrattuale

    Ricerca UE

    Abstract

    MARS-EV aims to overcome the ageing phenomenon in Li-ion cells by focusing on the development of high-energy electrode materials (250 Wh/kg at cell level) via sustainable scaled-up synthesis and safe electrolyte systems with improved cycle life (> 3000 cycles at 100%DOD). Through industrial prototype cell assembly and testing coupled with modelling MARS-EV will improve the understanding of the ageing behaviour at the electrode and system levels. Finally, it will address a full life cycle assessment of the developed technology.MARS-EV proposal has six objectives:(i) synthesis of novel nano-structured, high voltage cathodes (Mn, Co and Ni phosphates and low-cobalt, Li-rich NMC) and high capacity anodes (Silicon alloys and interconversion oxides);(ii) development of green and safe, electrolyte chemistries, including ionic liquids, with high performance even at ambient and sub-ambient temperature, as well as electrolyte additives for safe high voltage cathode operation;(iii) investigation of the peculiar electrolyte properties and their interactions with anode and cathode materials;(iv) understanding the ageing and degradation processes with the support of modelling, in order to improve the electrode and electrolyte properties and, thus, their reciprocal interactions and their effects on battery lifetime;(v) realization of up to B5 format pre-industrial pouch cells with optimized electrode and electrolyte components and eco-designed durable packaging; and(vi) boost EU cell and battery manufacturers via the development of economic viable and technologically feasible advanced materials and processes, realization of high-energy, ageing-resistant, easily recyclable cells.

    Paesi coinvolti

    • ITALIA
    • SPAGNA

    Enti/Aziende coinvolti

    • FUNDACIÓN CIDETEC

    Strutture interne coinvolte

  • CA(R)VOUR- RETE DI ORGANISMI DI RICERCA E AZIENDA PER LA PIATTAFORMA AUTOMOTIVE PIEMONTE, (2013-2015) - Responsabile Scientifico

    Ricerca Regionale

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • Regione Piemonte
    • VENATOR PIGMENTS S.P.A.

    Strutture interne coinvolte

  • SOE/FC - ANALISI SVILUPPO DI CELLE INNOVATIVE PER UTILIZZO SOEC E SOFC, (2012-2013) - Responsabile Scientifico

    Ricerca Regionale

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • Regione Piemonte

    Strutture interne coinvolte

  • BIOALMA - BIOCARBURANTE DA ALGHE PER LA MOBILITÀ SOSTENIBILE IN AREE URBANE, (2012-2014) - Responsabile Scientifico

    National Research

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • Universita' degli Studi di Catania
    • POLITECNICO DI TORINO - AMMINISTRAZIONE CENTRALE
    • SEA MARCONI TECHNOLOGIES S.A.S.
    • MINISTERO DELL'AMBIENTE E DELLA TUTELA DEL TERRITORIO E DEL MARE

    Strutture interne coinvolte

  • ANALISI SPERIMENTALE DELL'UTILIZZO DI SYNGAS DA CARBONE E BIOMASSA PER ALIMENTAZIONE DI CELLE SOFC CON PROCESSO DI SEPARAZIONE DELLA CO2 , (2011-2013) - Responsabile Scientifico

    Ricerca Nazionale - PRIN

    Paesi coinvolti

    • ITALIA

    Strutture interne coinvolte

    • Dipartimento di Energetica
  • SOFCOM—SOFC CCHP WITH POLY-FUEL: OPERATION AND MAINTENANCE, (2011-2014) - Responsabile Scientifico

    Ricerca UE - VII PQ - COOPERATION - Energy

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • POLITECNICO DI TORINO - AMMINISTRAZIONE CENTRALE

    Strutture interne coinvolte

  • Vedi altro

Finanziati da contratti commerciali

  • Development and validation of innovative glass-ceramic sealants for the realization of short-stacks of reversible Ceramic Proton Cells (PCC), (2021-2022) - Personale interno di riferimento

    Ricerca Commerciale

    Paesi coinvolti

    • FRANCIA
    • ITALIA

    Enti/Aziende coinvolti

    • SA ELECTRICITE DE FRANCE

    Strutture interne coinvolte

  • Idrogeno, (2021-2022) - Responsabile Scientifico

    Ricerca Commerciale

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • COGNE ACCIAI SPECIALI S.P.A.
    • BLU ENERGIE SRL

    Strutture interne coinvolte

  • Supporto nelle fasi di Design, Engineering e Certificazione di un convoglio alimentato a idrogeno per il trasporto ferroviario regionale, (2021-2023) - Responsabile Scientifico

    Ricerca Commerciale

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • Alstom Ferroviaria 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

  • Convenzione Dipartimentale tra il Politecnico di Torino e l’Associazione “A” come Ambiente per iniziative riguardanti attività di ricerca e di promozione dei contenuti scientifici nell’ambito di aree disciplinari connesse al settore dell’energia, (2019-2022) - Responsabile Scientifico

    Convenzioni Dipartimentali

    Abstract

    Convenzione Dipartimentale tra il Politecnico di Torino e l’Associazione “A” come Ambiente per iniziative riguardanti attività di ricerca e di promozione dei contenuti scientifici nell’ambito di aree disciplinari connesse al settore dell’energia

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • ASSOCIAZIONE A COME AMBIENTE
  • Associazione Italiana Idrogeno e Celle a Combustibile - H2IT, (data sconosciuta-data sconosciuta) - Responsabile Scientifico

    Intese

    Abstract

    Associazione Italiana Idrogeno e Celle a Combustibile - H2IT

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • Associazione italiana idrogeno e celle a combustibile
  • Convenzione dipartimentale di collaborazione ai sensi dell'art. 15 della L. 241/90 tra il Politecnico di Torino – Dipartimento Energia “Galileo Ferraris” - DENERG e l’Agenzia Regionale per la Protezione dell’Ambiente della Valle d’Aosta , (data sconosciuta-data sconosciuta) - Responsabile contrattuale

    Convenzioni Dipartimentali

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • AGENZIA REGIONALE PER LA PROTEZIONE DELL'AMBIENTE (A.R.P.A.) - REGIONE VALLE D'AOSTA
  • Attività di supporto e consulenza per sistemi a idrogeno, (2021-2021) - Responsabile Scientifico

    Ricerca Commerciale

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • RAICAM DRIVELINE SRL

    Strutture interne coinvolte

  • Modeling, analysis and final design of feasible solutions for heat management of two components (Power Module; Electrolytic Capacitors) inside converters, (2020-2021) - Responsabile Scientifico

    Ricerca Commerciale

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • ELDOR CORPORATION S.p.A.

    Strutture interne coinvolte

  • Modellazione e simulazione di tecnologie innovative per la produzione di idrogeno che possano essere integrate/affiancate ad un impianto industriale di produzione di biogas da FORSU, (2020-2020) - Responsabile Scientifico

    Consulenza commerciale

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • ENVIRONMENT PARK S.P.A. - PARCO SCIENT.TEC. PER AMBIENTE

    Strutture interne coinvolte

  • Analisi di fattibilità sulla realizzazione e sfruttamento di un impianto di riscaldamento alimentato con generatore ad idrogeno di potenzialità pari a 32 kW da realizzarsi presso l’Istituto “Meucci” di Carpi (MO) e analisi del progetto del sistema di autoproduzione dell’idrogeno composto da elettrolizzatori alimentato da impianto FTV, (2020-2020) - Responsabile Scientifico

    Ricerca Commerciale

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • ASIA PROGETTI

    Strutture interne coinvolte

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    Ricerca Commerciale

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

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    Strutture interne coinvolte

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    Ricerca Commerciale

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • SMAT S.p.A. - TORINO -

    Strutture interne coinvolte

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    Ricerca Commerciale

    Paesi coinvolti

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    Enti/Aziende coinvolti

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    Strutture interne coinvolte

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    Ricerca Commerciale

    Paesi coinvolti

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    Enti/Aziende coinvolti

    • EDISON S.p.A.

    Strutture interne coinvolte

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    Ricerca Commerciale

    Paesi coinvolti

    • ITALIA

    Strutture interne coinvolte

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    Ricerca Commerciale

    Paesi coinvolti

    • ITALIA

    Strutture interne coinvolte

  • OZ-BOX - PROGETTAZIONE SVILUPPO DI UNO STACK SOFC DA 1 KW INTEGRATO CON REFORMER E GESTIONE ELETTRONICA, (2012-2014) - Responsabile Scientifico

    Ricerca Commerciale

    Paesi coinvolti

    • ITALIA

    Strutture interne coinvolte

  • ATTIVITÀ RELATIVE AL PROGETTO ENERGY BOX, (2011-2014) - Responsabile Scientifico

    Ricerca Commerciale

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • FN S.P.A. NUOVE TECNOLOGIE E SERVIZI AVANZATI

    Strutture interne coinvolte

  • STESURA DI UNA RELAZIONE SCIENTIFICA CHE VALUTI LE POSSIBILITÀ TECNICHE ED ECONOMICHE PER REALIZZARE UN IMPIANTO PER PRODUZIONE AD ACCUMULO DI IDROGENO ......, (2009-2009) - Responsabile Scientifico

    Consulenza commerciale

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • LE CHATELET S.R.L.

    Strutture interne coinvolte

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