3. Key Innovation Rationale
• Electromobility (E-mobility) is the most important alternative transport
technology to reduce CO2 emissions
• Electricity generation should match electricity demand including
electricity needed for e-mobility
• Main challenge is to deploy e-mobility at a larger scale
• On the transition path focus on organisations with large vehicle fleets
operated on short distances
• E-mobility is only part of the solution for urban mobility
(emissions/CO2)
2
9. Some of the key issues
• Price Volume (Market Perspective) Business Case
• EU level activities e.g.
• Emission norming for 2020/2030
• Standardisation
• Supporting Innovation programme’s
• National level activities e.g.
• Tax systems related to clean vehicles
8
10. EV development in the Netherlands
target 15.000 in 2015, 200.000 in 2020
9
11. Some of the key issues
• Price Volume (Market Perspective) Business Case
• EU level activities e.g.
• Emission norming for 2020/2030 and standardisation
• Supporting Innovation programme’s
• National level activities e.g.
• Tax systems related to clean veh
• Local issues:
• Environmental zones / parking
• Charging infrastructure
10
15. 0. Planning your trip1. Load electric car
Smart City Travelling
Joost Adriaanse, Ewoud
Werkman, Don Guikink
Smart City Travelling
31
4
2
5
5
6
6
Smart
City
Travelling 0
9
8
7
2. Check emission3. Plan route4. Reserve Parking
5. Optimise traffic
lights on route
6. Adjust lightning7. Travel by car
8. Walk to public
transport
9. Public Transport
16. Smart Cities Initiative Annual Conference
KI E-Mobility and powermatching
Thank You
Stefan Klug (Fraunhofer ISI)
Hein de Wilde (ECN)
Don Guikink, Joost Adriaanse & Ewoud Werkman (TNO)