Electric Vehicle Energy for a sustainable future Overview October 2016
Energy Energy for a sustainable future Valuable Solutions FZ SoNick
Energy for a sustainable future 2015 Turnover 590 M€ 14 3.000 EMPLOYEES PRODUCTION PLANTS 3
FIAMM SoNick/ Businesses Energy for a sustainable future General Lighting Sodium Batteries - OLED - Energy Storage (Organic Light Emitting Diode) - Energy Backup (TLC) Starters - Electric Vehicles Micro Hybrid Vehicles - Batteries - Horns - Start & Stop Batteries - Antennas and Cables Industrial Backup - Backup Power Core NEW Proximity Business Business Business 4
Energy for a sustainable future 2NaCl + Ni NiCl2 + 2Na Salt 20% 32% discharged charged cell Cu Miscellaneous 22% Ni 2% 4% Safety 20% Fe Performances Ceramic Intrinsically safe , Temperature Immunity Zero Impact electrochemical safety (-40 -; +60°C) Battery No gas emissions Cycling Capability No flammable materials NO dangerous materials > 1.500 cycles - MOBILITY No fire/water flood reaction 100% recyclable > 4.500 cycles - ESS (80% DOD) Industrial Process Control Battery energy density NO pollution materials Tested in the field 100-;120Wh/kg NO gas emissions 150-190Wh/lt (EV, TLC, ESS,...) Shelf life (> 20 years) BMS control No memory effect Cell/Battery Mechanical case 5
Production Energy for a sustainable future 6
Applications TR SoNick Energy for a sustainable future ST SoNick TL SoNick for TRAILER STORAGE for for ENERGY BACK-UP, UPS and ENERGY STORAGE TELECOMS EV SoNick RW SoNick for for SUSTAINABLE MOBILITY Railways ENERGY BACK-UP 7
SoNick Technology Energy for a sustainable future • The required capacity and voltage specifications are obtained by connecting an appropriate number of cell strings in series and parallel. • The cells are vertically assembled into the battery box with or without aircooling. External Case Internal Case Heater Battery Management System Thermal Insulation Cells Cooling Fan Traction Net CAN interface Charger 8
Solution Range Energy for a sustainable future 9
Suitable for any place of installation: Energy for a sustainable future Marine transportation Harsh environment Extreme temperature Safe from physical damage No hazardous emissions 10
Energy for a sustainable future Applications and References
Electric Vehicles Energy for a sustainable future SoNick Technology EV for Sustained Mobility 12
Energy for a sustainable future Location: Australia EV • 3 Buses operated by Adelaide council since 2008 Travel 50,000 kms a year • • Save 14,000 litres of diesel a year • Save 70,000 kg of CO2 emissions a year 13
Energy for a sustainable future Location: Australia EV • Tindo buses are recharged using 100% solar energy using a unique solar photovoltaic charging system and have the ability to travel over 200 kilometres between recharges. • As the SoNick batteries are virtually maintenance free, it results in significant cost savings. • The unique battery management interface ensures that the batteries system can’t be damaged by inappropriate operation or charging protocols. • Unlike other batteries available for electric buses, these controlled temperature batteries operate without loss of performance or life expectancy in virtually any condition. • In addition to conventional controls and instrumentation, a driver display panel is provided, from which the bus operator and maintenance staff can check the status of Tindo’s drive and charge. 14
Public Transport Energy for a sustainable future EV From north… Location: Canada -30 ° C To south… With Tecnobus Location: Abu Dhabi +50 ° C With Designline 15
Light Commercial Vehicles EV Energy for a sustainable future Location: Europe IVECO MY 2014 awarded as Van of the Year 2015! With IVECO 16
Light Commercial Vehicles Energy for a sustainable future Location: Europe EV With DOBLÓ With CITROEN Berlingo- Venturi 17
Busses Energy for a sustainable future Location: Europe With IRIZAR 18
Refuse Trucks EV and School Buses EV Energy for a sustainable future Location: USA With SSTE With CITY OF CHICAGO 19
Shuttle Buses Energy for a sustainable future Location: USA EV With GOOGLE With GBV 20
Shuttle Buses Energy for a sustainable future Location: Europe EV V With TECNOBUS
Shuttle Buses Energy for a sustainable future EV Location: Europe With IRIZAR 22
Mining and Heavy duties Energy for a sustainable future Location: Wold 23 Pag. 18
Mining and Heavy duties Energy for a sustainable future Parameter Na-Ni-Cl 2 Lead Acid Ni-Cd Ni-mH Li-Ion Package Module Module Package Module Battery Weight Battery Volume Operating Temp. optimal Cooling Medium, techn. Energy loss per cell fail. Locomotive Robust P. Expected Price, Prod. Pag. 19 24
Light Vehicle Energy for a sustainable future Location: BRAZIL EV With ITAIPU and President LULA With ITAIPU With IVECO 25
Light Vehicle Energy for a sustainable future Location: Europe EV With TH!NK city 26
ROLLS ROYCE - NATO Submarine Rescue System Energy for a sustainable future Location: UK and China EV UNIT: 8 Z43 (258V 64Ah). 4 in use and 4 as back-up ENERGY: 30-35 Wh for traction and 12 Wh for auxiliary services Free-Swimming Submersible Rescue Remotely Operated Vehicle 10 meters long, 27 tons weight With ROLLS ROYCE 27
Pag. 71 28
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