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TRIMIS

MODelling of Advanced LI Storage Systems

MODALIS2

MODelling of Advanced LI Storage Systems

Call for proposal: 
H2020-LC-BAT-2019
Link to CORDIS:
Objectives: 

For a competitive EU battery sector, the development of next-generation battery systems needs cost-efficient processes. MODALIS² will make a significant contribution to a cost-down for EV battery cells through an all-integrated development process based on numerical tools relying on extensive measurement data and material characterization all the way down to micro-structures.

With the integrated modelling and simulation, MODALIS² will provide degrees of freedom for the cell and battery development processes that allows to address the following design challenges: i) faster development of batteries with higher energy density with new materials; ii) faster development of materials with higher optimized performances for higher-energy battery applications; iii) improved battery safety during transport and operation; iv) optimization of cyclability; v) lower development costs; and vi) better understanding of material interactions within the cell.

The main achievement of MODALIS² is to develop and validate modelling & simulation tools for Gen 3b cells by aiming for higher capacities for the positive & negative electrodes; and for Gen 4b cells by enabling the use of solid electrolytes for improved safety and to facilitate the use of Li-M for the negative electrode. These new technologies are submitted to new specific mechanisms and phenomena (mechanical stresses on negative electrodes, volumetric expansion, solid electrolytic conduction) that are not considered by current modelling and simulation tools.

MODALIS² will address the material characterization of next-generation (3b and 4b) Li-Ion cells in different physical domains, then expanding a carefully chosen set of models towards integrating new cell generations and implementing the models into a numerical simulations toolchain scalable to mass production. The modelling & simulation toolchain will allow faster time-to-market for next-gen cells.

Institution Type:
Institution Name: 
European Commission
Type of funding:
Programme Other: 
LC-BAT-6-2019 - Li-ion Cell Materials & Transport Modelling
Lead Organisation: 

Ifp Energies Nouvelles

Address: 
1et 4 avenue de Bois-Préau
92500 RUEIL MALMAISON
France
EU Contribution: 
€886,993
Partner Organisations: 

Centro Ricerche Fiat - Societa Consortile Per Azioni

Address: 
Strada Torino, 50
10043 ORBASSANO (TO)
Italy
EU Contribution: 
€287,500

K & S Gmbh Projektmanagement

Address: 
Purweider Winkel 52
52070 Aachen
Germany
EU Contribution: 
€189,625

Siemens Industry Software Sas

Address: 
150 AVENUE DE LA REPUBLIQUE IMMEUBLE LE DIAGONAL
92320 CHATILLON
France
EU Contribution: 
€650,625

Universita Degli Studi Di Torino

Address: 
Via Giuseppe Verdi 8
10124 Torino
Italy
EU Contribution: 
€337,500

Gemmate Technologies Srl

Address: 
VIA REANO 31
10090 BUTTIGLIERA ALTA
Italy
EU Contribution: 
€368,750

Rhodia Operations

Address: 
25 RUE DE CLICHY
75009 PARIS
France
EU Contribution: 
€682,969

Umicore

Address: 
Broekstraat 31
1000 Brussel
Belgium
EU Contribution: 
€397,298

Siemens Aktiengesellschaft

Address: 
WERNER-VON-SIEMENS-STR. 1
80333 MUNCHEN
Germany
EU Contribution: 
€474,184

Saft

Address: 
26 QUAI CHARLES PASQUA
92300 LEVALLOIS PERRET
France
EU Contribution: 
€570,663
Technologies: 
Development phase: