Forget wireless power for phones - Korea's doing it for buses

don't listen too hard to the engine

Tie Fighters!

Wet blanket time

"...embed charging into the M25 and you could be sure of everyone in London getting a couple of hours charging daily."

Not everyone in London drives around the M25, or even drives a car. Who is going to pay for the massive infrastructure costs and associated installation disruption costs; and how will the cost be recovered?

What is the running energy efficiency of this system compared to parked charging of electric vehicles and what is the energy cost of the installation?

I'm a cynical and miserable old git and I ask awkward questions, but they must be asked and answered. I have a feeling that the answers will not be satisfactory.

I foresee a complication

A lot of power will be "lost" as soon as commuters figure out that $50 worth of Litz wire, a few components and a length of cable spliced into the wiring loom can charge up their electric cars.

So what if it is 18% efficient, free power is still free and blows a solar panel completely to hell as far as power to weight ratio.

Possible fixes include a "challenge-response" crypto, heavy fines for anyone caught and/or road mounted EMPs to punish those caught stealing power more than once.

How well insulated are steel toecaps?

Or indeed the copper insoles I've seen advertised to "cure" arthritis.

I'd imagine the induction current from something with enough power to charge a bus battery could at least result in a toasty warm glow in your tootsies, even if you don't have lightning shooting from your shoes.

If the wiring is placed close enough to the road surface and generates a bit of heat as part of the charging process, it could also help prevent the snow flake gridlock we always seem to see in the UK.

I appreciate that heat in electricity implies losses, but it's just a thought :)

Whoa wait a minute. Didn't the Daleks need these power strips at first!

- Inefficient charging.

- Miles of roads ripped up (again)

- High-cost metal loops put into the roads.

- Knock-on effects of huge inductive loops on car radios, satellite equipment, and everything else you get in a moving box of metal controlled by electronics when you induce a huge current in it.

- "free" electricity (so someone, somewhere pays for you to charge your car, and assumes you'll ONLY charge your car on it).

- Differing standards / compatibility already.

- And, at the end of the day, no worse than having a free plug-in point where you park and at home (or for buses, at the DAMN BUS STOP!). In fact, that makes infinitely more sense to do that than to have this junk underneath the road.

I love the way we talk about just ripping up miles of road, slapping in some humongous, inefficient inductive coils into both the bus and road (yeah, because nobody would steal metal while it's got power running through it, right?!) and it all just working better than plugging the bus in for an hour at the beginning / end of a journey instead.

How would it work on motorways? At 70mph, I would be "in range" of a 30m inductive coil for less than a second. To get an hour's worth of inductive charging I would have to drive over 108km of coils with no gaps. Not only is that a HUGE amount of metal, that's a huge amount of digging up the roads, and a very unusual driving pattern. Multiply it up by lots and lots of cars, lane, buses, and everything else and it's a stupendous waste of resources to do what a battery and a plug socket can do.

Even assuming that plugging it in is only twice as efficient as inducing the same current, I could get the same power in 30 mins of being parked (and even buses spend more time parked, over a day, than they do moving). I think an extra electric bus taking it in turns to park for 30mins or go for a 30mins circuit of the route is going to be cheaper than ripping up even 1km of roads. Take into account peak periods (more expensive electric) and system-gaming (drive car along road, take it home, swap battery - or use car to power something - drive car back along road whenever you run out of juice, hey presto free electricity without even having to modify the car or charging systems).

I've heard some utterly ridiculous ideas, but induction charging vehicles by in-road chargers? Please. If you want to do that, just save the effort and change the roads for mag-lev tracks and have done with it. More efficient, same power source, same number of changes required to vehicles and much, much, much less electricity wasted inducing currents in passing trucks full of metal.

One problem hopefully solved

This sounds like a good idea getting past the battery issue of current electric cars. However there is an excessive drive to reduce our energy consumption and worse we have replaced energy generating power stations with wind farms and solar panels. The push for less co2 destroys any hope of rolling out this technology very far.

Considering how great the last gov was at securing our energy supply could we trust them to deploy this technology and deploy the required energy sources regardless of the nutters?

Graphene

I bet graphene has a role to play here. Mix it into the tar and lay a road that generates the required field when a current is applied?

Shriek! Wail!

If you thought the fuss over powerline cancer and cellphone cancer was bad ....

I was thinking overhead then Scaletrix

Overhead needs a return which is why railways work so well. But slot cars - sounds good to me.

I used to have a slot bus and slot lorry - Minic

wouldn't there also be an increased drag imposed on the vehicle as a result of the induction based charging

Will nobody suggest the hybri scalextric option?

Looks forward to the crossover section!!

One day we'll wake up

To find someone's nicked the M25 for copper.

Lateral thinking

We could either continue our search for solutions using the expensive technological options at our disposal, or take advantage of Nature's head start provided by many millions of years of variation and natural selection. What I am suggesting is that we look to nature for some kind of biological transport mechanism - one that has evolved over time to do the very thing that we require. One with sufficiently predictable behaviour, that is able to be programmed for the desired task. One that consumes renewable resources, and produced bio-degradable waste products. Perhaps several units that fit this description could be harnessed together, to provide an engine that can be attached to some kind of carriage unit.

I realise that this is a radical proposal, and has obviously never been tried before, but I believe that it could work. I suggest that we start with limited trials. Naturally public safety is a primary concern, and therefore I suggest that a suitable attired safety officer could walk in front of these experimental vehicles carrying a red flag.

Bratislava in Slovakia still has the electric trolley buses so they are still in use in other places of the world. Unfortunately in the UK we ripped up most of our tram and trolley bus infrastructure when we thought the car was going to be the bees knees and no one would need public transport anymore

This is hardly new technology or application - Inductive Power Transfer (IPT) has been around for years and keeps getting a prod every 5 years or so. The company I used to work for installed a light rail system about 10 years ago for a tourist spot. The gear was amazingly expensive, was expensive to install and does emit a reasonable amount of RF which can cause more than a few issues if you need to use any other sort of cellular or HF device... It did work though, and for the short length of rail was a good choice of technology.

The cost benefit ratio for regular roading (with all the logistical issues of getting high voltage power along miles and miles of roads) is not going to ever make this a viable option. I think a good example of this are the IPT "Cateye" reflectors (Centre line delineators) which use a radio based IPT system. Despite being a viable and very neat product they are still not popular due to the cost of installing and maintaining the system in the harsh roading environment. They are a specialty device used for specialty applications where a cost benefit can be proven (like tunnels or motorways).

That being said, I still think the original concepts of IPT / near field charging systems were brilliant for smart phones - less tangle on my desk..

"Pantograph"

It is indeed a wonderful word, and refers to a device used to create a drawing by tracing another drawing.

It's used occasionally and *fancifully* for the gizmos on top of electric streetcars, because of the gizmo's slight resemblance to an actual pantograph.