seri faam ppt - legambiente
TRANSCRIPT
Group StructureSBU ACTIVITY
Production and recycling of plastic material ▪ Production of special compounds for
the moudling of boxes and lids for electric accumulators
▪ Production of special compounds for the automotive
▪ Production of special compounds for the moulding and extrusion of pipes and fittings for the thermo-hydro sanitary market
Electric Accumulators ▪ Production and recycling of lead-acid
and li-ion batteries for motive power, storage, starter and special applications
▪Design and construction of plants for the recycling of exhausted batteries
▪ FAAM is carrying out R&D activities through FAAM Research Center
FIB
SERI PLAST
SERI Industrial is a listed company on the MTA. The mission is to accelerate the energetic transition to sustainability and decarbonization, controlling the supply chain of electric accumulators and plastic material
Shareholders and highlights
Seri Industrial is controlled by Industrial, owned by the Civitillo family (founders of SERI)
765 Employees
200 M€ Revenues
14 plants 3 R&D centers
9 operating sites
Industrial S.p.A. 62,60%
Market 20,31%
Neuberger Berman AIFM 17,09%
Highlights Shareholder Base
MilestonesSERI establishment Exide Technologies French
and Spanish plastic moulding activities
acquisition
Acquisition of Lithops by FAAM, an R&D company
active in the development of innovative li-on cells
Upstream integration with the acquisition of Repiombo,
a smelter active in the recycling of exhausted
batteries
SERI Group acquires Teverola complex from Whirlpool Corporation to start up lithium cells production
Reverse merger with Krenergy, a company listed on the MTA
Joint Venture in Argentina for the supply of
lithium carbonate
Rights Issue in July 2018 for Seri Industrial – to fund development projects
Invitalia Determina for 55M€ investment (Lithium
Project)
IPCEI Project for 505 M€ investment
Start up of activities in Poland (plastic business unit)
Start up phase of Teverola production plant for li-ion
batteries
Acquisition of COES Company production of pipes and fittings
ESTABLISHMENT M&A CONSOLIDATION AND GROWTH
Start up of SERI PLANT Division – turnkey plants for the recycling of exhausted
batteries
Start up of PP compounds production from the
recycling of exhausted batteries
Acquisition of Plastam and ICS – for the moulding of plastic components for
batteries
IMI Fondi Chiusi SGR enters in the share capital of Seri
Acquisition of FAAM – a leading company in the
production of lead-acid and li-ion batteries for industrial,
storage and starter applications
Footprint P
RO
DU
CT
R
AN
GE
I N D U S T R I A L F O O T P R I N T
Plants PP CompoundsMoulding of plastic components
SmelterLead Acid Batteries Lithium batteries
ELECTRIC ACCUMULATORS
PLASTIC MATERIAL
Circular Economy: Lithium
LITH
IUM
SEG
MEN
T
CELL PRODUCTION
SUPPLY OF LITHIUM CARBONATE (JV)
ACTIVE MATERIAL PRODUCTION
PRODUCTION AND SALE OF MODULES AND BATTERY PACK
RECYCLING OF EXHAUSTED ACCUMULATORS AND RECOVERY OF ACTIVE MATERIAL
Teverola Plant – present and future
Start up: I Q 2021
37.000 sqm indoor
Capacity: First step 300 MWh
Technology: Gen 1 LFP soft pouch (gen 2 availability too)
55 M€ Investments
Applications: Motive Power, ESS, Public transport, Naval and Defense
Joint Venture in Argentina for the supply of lithium carbonate
Ability to adapt the chemistry used in the realization of the cell (e.g. Automotive)
TEVEROLA 1 TEVEROLA 2
Project timesheet: 2021-2027
42.000 sqm indoor
Capacity: 2,5/3 GWh at the end of the R&D&I project
Technology: Gen 3b and 4 (solid state)
505 M€ of public grant(Capex and Opex)
50 ton/day of battery treatment in the recycling pilot line
Applications: mainly Automotive and storage
Partnership with European players along the supply chain
280.000 sqm of complex
area (80.000 indoor - scalable)
IPCEI
FAAM project has been approved for the production of beyond the state of the art li-ion cells and recycling of end-life li-ion batteries
The grant for FAAM project is 505 M€ on an overall grant of 570 M€ for the Italian Consortium
IMPORTANT PROJECTS OF COMMON EUROPEAN INTEREST
Salzgitter, 2024
France, 2022
Willstät, 2020
Skelleftea, 2021
Teverola, 2020-2023
Wroclaw, 2021
Komarom, 2020
Berlin, 2023
Erfurt, 2022
Asian Manufacturers (mass markets)
Poland, 2023
European Manufacturers
A mediterrean Gigafactory
Production of soft pouch cells based on generation 1 and 2a technology for industrial, storage and special application (2a generation cells)
In addition, Teverola can produce gen 2a/2b cells, suitable for Automotive applications
In Teverola Plant, FAAM is focused on the production 40 Ah pouch battery cells based on gen 1 technology, suitable for industrial applications, ESS and niche markets
Cathode: LFP, NCA Anode: 100 % Carbon
Gen 1
Cathode: NCM111 Anode: 100 % Carbon
Gen 2a
Cathode: NCM532 to NCM622 Anode: 100 % Carbon
Gen 2b
Technology roadmap – Teverola 1
Achievements
Cathode: NMC622 to NMC811 Anode: Carbon + Si (5-10%)
Gen 3a
TEVEROLA 2 will be focused on the production of generation 3a and 3b
Cathode:HE-NCM, HVS Anode: Silicon/carbon
Gen 3b
All-solid-state with Li metal anode;
Conversion materials (Li/S)
Gen 4
Li/O2 (lithium-air)
Gen 5
The R&D phase will be carried out between the end of 2020- 2022 and the mass production and commercialization by the end of 2022/start of 2023
Technology roadmap – Teverola 2
The next step – generation 4 – will be industrialized on 2026
Achievements
• High-V spinels • Li-rich layered oxides • Ni-rich NMC • Hybrid power-energy
R&D Projects on next-gen materials since 2012
CATHODE• Si/C composites
ANODE• Polymer electrolyte
ALL-SOLID-STATE
• Gas production from cells during standard operation or abuse
• Self-healing
SAFETY
BAT4EVER
IPCEI Targets - sustainabilityOne of the objective of FAAM project is to implement the “green footprint” of the production processes by eliminating toxic solvents and by reducing the CO2 equivalent produced by the li-ion cells and modules production
FAAM project will reduce the energy required for those process by developing with its industrial equipment manufacturer partners more efficient solutions such as (but not limited to) reversible formation system and steam based coating equipment
In addition FAAM is currently trying to work as much as possible with local European Suppliers to reduce the global CO2 impact by limiting material and equipment transportations. Through the project and collaborations between EU players, the strategy will be more concreteFAAM aim is to develop and industrialize a solid state lithium-ion cell with generation 3b or higher innovative active materials, improving current technologies performance characteristics, cost and green footprint.
FAAM targets to develop water-based formulations for both electrodes (cathode and anode), increasing the safety and reducing the environmental impact of the production processes, in particular
Anode FAAM has a long experience, having developed water-base formulations for all the products that are going to be produced in its plants
Cathode Water-based application to cathode materials has several challenges due to instability of the most of those products in aqueous environment