Plugging your electric car into a charging station could become a thing of the past as researchers are developing electric roads that can charge your car while waiting at a traffic light or even on the move.
It’s part of a series of projects looking at improving the infrastructure for electric vehicles to encourage people to invest in electric transport and reduce emissions. One of the obstacles to the popularity of electric vehicles is so-called range anxiety – the worry about how far you can travel before your battery runs out. Wireless charging could change all that.The EU-funded FABRIC project, which is looking into the feasibility of wireless, or inductive, charging for electric vehicles. This works by having a cable or charging hub buried in the asphalt, and a coil on the underside of the vehicle. When the vehicle is in the vicinity of the charging hub, it wirelessly connects and begins to charge. So-called static charging is done when your car is parked, for example in your garage overnight. Stationary charging is done in short bursts, for example at traffic lights or tolls, while dynamic charging keeps your car fully powered while it is on the move via induction loops under the road surface.
However, both stationary and dynamic charging have technical challenges to overcome before they get to market, according to Axel Barkow from the EU-funded UNPLUGGED project, not least that more development needs to be done on fast-charging batteries. ‘There are still scenarios where you will need a cable. Nowadays, when we talk about fast charging or ultra-fast charging, there is not a technology in sight which might be wireless.’
However, he says that progress is more advanced with static charging, which happens when a car is parked. The UNPLUGGED project built two demo vehicles - a passenger car and a delivery vehicle - to investigate how inductive static charging could work in practice. Barkow says that one of the main obstacles standing in the way of wide rollout is the lack of an industry-wide standard for the chargers. While this is not necessarily a problem for private cars, it is for other vehicles. ‘In your garage it’s very unlikely that a car other than your own will charge on your charging pad. (But) putting things into public infrastructure, things look very different.’
Michael Glotz-Richter, a sustainable mobility project manager with the City of Bremen, Germany, coordinates the EU-funded ELIPTIC project, which is looking at the electrification of public transport. He says that public transport has a huge role to play in electrification. ‘When we talk about electrification, or electric mobility, we need to understand mobility as a wider thing and not only cars. ‘An articulated bus consumes, per year, 40 000 litres of diesel. When you compare it with the approach of electrifying cars, you can say that electrification of one of these big buses is having impacts like electrifying 100 cars.’
The ELIPTIC project is looking to make public transport infrastructure more efficient. One idea is to install a system that can use excess energy from tram systems to power buses using a sub-station or by directly connecting to existing overhead lines.
Electric buses could be charged from tram lines.
They are also working on a way to use a flywheel to store the excess energy created from electric brakes on trams, and how to connect the electricity supplies of trams, trolley buses and metro lines. However, Glotz-Richter says that for electrification to have a positive environmental impact beyond reducing air pollution, you also need to look at the energy source. The constantly increasing production of renewable energy in the EU, which replaces more carbon-intensive sources, is the key to fully decarbonising transport and solving air quality problems at the same time.
For more information about ELIPTIC, please contact eliptic@UMWELT.Bremen.de.
Source: Horizon Magazine