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Project/Service Agreement:621196

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Status
Projeto EncerradoClosed
Publication
PublicadoPublished
General Data
Code: 66772
 
Reference: 621196
Short name: FluidCELL
Title: Advanced m-CHP fuel CELL system based on a novel bio-ethanol Fluidized bed membrane reformer
Competitive Funding: Yes
Does it involve businesses?:
No. of Participating Institutions: 9
Scope
Type: Funded Project
 
Geographical Scope: International
 
Type of Action: Cooperation
Funding
Programme: 7.º Programa-Quadro de IDT
Funding Institution: COMISSÃO EUROPEIA
Financial Geographical Scope: International
Scheduling
Planned Start Date: 2014-04-01
Effective Start Date: 2014-04-01
Expected Completion Date: 2018-07-31
Effective Completion Date: 2018-07-31
Budget
Currency: EUR
 
Total Approved Budget: 4.193.548,00 EUR
Details
Summary: FLUIDCELL aims the Proof of Concept of an advanced high performance, cost effective bio-ethanol m-CHP FC system for decentralized off-grid, by improving technology developments from previous EU projects. The improvements will be achieved by development of a) better system integration using a fluidized bed catalytic membrane reactor working at low temperature (<500°C) b)innovative materials;Pd pore filled (PdPF) membrane, low temperature autothermal ethanol steam reforming (AESR) catalysits and c) most advance FC technologies. Low temperature allows lower thermal duty, higher compactness, use of less expensive materials and long term stability. The H2 is produced from bioethanol which is non-toxic, high energy density, easy handling fuel which can be obtained from cellulose or lignocellulose. Compared with standard AESR, the use of a membrane reactor allows operating at lower temperatures while also suppressing the methane formation via the in-situ recovery of H2. The fluidized bed system allows operating at a virtually uniform temperature which is beneficial in terms of both membrane stability and durability and for the reaction selectivity and yield; since the possible carbonaceous depositions are better exposed to contact with steam and, therefore, faster gasified; in addition, the feedstock is in contact with all the catalyst particles and the fluxes and temperatures are homogeneous, avoiding any polarization phenomena along the membrane. The use of the H2-selective Pd membrane, as proposed in FluidCELL, can circumvent the constraint of high temperatures by shifting the equilibriums, allowing higher H2 yield at much lower temperatures. Besides, the possible detrimental erosion of the membrane produced by fluidized bed will be diminished by considering the use of PdPF membranes where Pd is located inside the nanopores of a ceramic support located below a ceramic protecting layer; this innovative membrane will be for the first time used in fluidized bed reactors.
Scientific Context
Scientific Domain (FOS - Level 2): Engineering and technology > Chemical engineering

Academic fields (CORDIS - Level 5)

  • Technological sciences > Engineering > Chemical engineering

Keywords

  • Advanced fuel CELL system
Documents
Mais informações There are no Documents associated with the Project.

Publications associated with the Project

Article in International Scientific Journal
Luis C. Pérez (Author) (FEUP); Adélio Mendes (Author) (FEUP); Pauli Koski (Author) (Other); Jari Ihonen (Author) (Other); José M. Sousa (Author) (FEUP)
2014
Article in International Scientific Journal
Mohammadmahdi Abdollahzadehsangroudi (Author) (Other); Paulo Ribeirinha (Author) (FEUP); Marta Boaventura (Author) (FEUP); Adélio Mendes (Author) (FEUP)
2018
Institutions Participating in the Project
Institution Contact Create Tab?
Name Short name Country Type Participation Name Telephone Email
Fundacion Tecnalia Research & Innovation TECNALIA Espanha Non-profit institution Proponent
Commissariat à l'Ènergie Atomique CEA França RD Institute Partner
Eindhoven University of Technology TUE Países Baixos University Partner
Faculdade de Engenharia da Universidade do Porto FEUP Portugal University Partner Adélio Mendes +351225081695 mendes@fe.up.pt
HyGear B.V. HYGEAR Países Baixos Company Partner
ICI Caldaie S.p.A. Itália Company Partner
Politecnico di Milano PMIL Itália Polytechnic Partner
QUANTIS SÀRL Suíça Company Partner
Universitá Degli Studi di Salerno UDSS Itália University Partner
 
Budgets and Teams
Approved Budget: 147.445,60 EUR
Approved Funded Amount: 103.431,00 EUR
Approved co-funded Amount: 44.014,60 EUR
Funding Rate: 70,15 %
Confidential Budget:

People in the Project

Institution Name Short name Role Dedication (%) Contribution (%) Allocation
Start date End date
FEUP Adélio Miguel Magalhães Mendes AMM Official Researcher at the OU 0 55 2014-04-01 2018-07-31
FEUP Fernando Alberto Nogueira da Rocha FAR Researcher 0 2,5 2014-04-01 2018-07-31
FEUP Margarida Maria da Silva Monteiro Bastos MMB Researcher 2,5 2014-04-01 2018-07-31
FEUP Mohammadmahdi Abdollahzadehsangroudi MA Grant recipient 100 2014-11-17 2016-04-29

Technicians in the Project

Technician Contact
FEUP 506601 Liliana Carla Tavares Coelho
Laboratories
Mais informações There are no Laboratories associated with the Project.
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