- Solar filling station Perugia: PV 7.5 kWp, battery 10 kW, 100 kWh
- Elektro Smart
- Elektro Scooter
Solar filling station
„The Future is electric“
From 0 to 100 on a ray of sunlight
Solar mobility = CO2-free mobility
Solar energy is converted by photovoltaic cells to electricity. The electricity is stored by the liquid energy carrier in an energy store and can be recovered as needed. Electric vehicles are charged from plug sockets on the energy store.
Performance (example for Rome)
Solar energy available: 13,194 kWh / year
Electrical output: 6,524 kWh / year
Km-Budget: 65,240 km / year (at 0.1 kWh / km)
Fuel savings: 2,610 litre / year (at 4 l/ 100km)
CO2-saving: 5.8 t / year
Exceptional properties
Optimized solar yield – Two axis tracking PV system
Rapid charging of vehicle batteries – High charge currents
High reliability – State of charge control
Installation within few days – Easily transportable
Electric Vehicle Specifications |
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Model | Battery capacity (kWh) | Range (km) | Recharge time (h) | Charge Power (kW) | Battery type |
Vectrix Scooter | 3.7 | 55 - 90 | 3 | 1.5 | Ni/MH |
iO 1500GT Scooter | 2 | 50 - 70 | 3 - 6 | 0.6 | Pb/acid |
iO Citybike Vienna | 0.2 | 20+ | 1 - 3 | 0.2 | Ni/MH |
Flyer T8 bike | 0.3 | 12 - 37 | 4 - 6 | 0.06 | Li-ion |
Lectra VR24 Motorbike | 2.6 | 22 - 40 | 4 | 0.44 | Pb/acid |
EZ Go Golf Cart | 7.9 | 10 | 10 | 1 | Pb/acid |
Smart fortwo EV | 15 | 115 | 3,5 - 8 | 2,8 - 3 | Na/NiCl |