Thank you very much it is a real pleasure to be here in Dublin to talk about: Sustainable transport.
Transport is - personal transport, personal mobility - is hugely important.
Economists know that it drives economic growth
in the UK we’ve had various famous examples of politicians
telling the unemployed to “get on their bikes” to find a job.
And we also know that it drives personal wellbeing and this is one of my favourite pictures
because to me this is a picture of efficient transport and these people look really happy.
They are going somewhere they want to go. So this is an important image.
Transport drives personal well-being and economic growth
and we’ve got to learn to do it sustainably and we’ve got to do that urgently.
We often say in England and you probably do here “every little helps”
we need to remember that every little helps a little.
This is an agenda where we need to change some big numbers
and the new phrase that we all have to use has to be
“every big helps” and I’ll show you some big numbers.
First of all let’s remind ourselves why this is so important.
There is a high probability that CO2 produced from our activities on the globe
is heating the globe up and indeed if we continue to do what we are doing today
there’s a high probability that global average temperatures
by the end of the century will rise as much as 4 degrees.
Parts of Europe will be 8 degrees warmer.
That’s places like Southern Spain. That’s not far away places.
It’s places many of us go regularly on holiday.
London could be 12 degrees hotter on the hottest days.
London is pretty insufferable in the middle of summer as it is
London at 50ºC would be totally insufferable and indeed many people would die.
Food production in many of the wheat bowls,
the food bowls of the world would be dramatically reduced
and a large proportion of the global population would suffer water shortages.
40% of the world’s population on 3 litres of water a day.
For some of us who are used to using water rather more luxuriously
that’s a bath a month and that’s a life I would find very difficult.
So the very best of our scientists tell us that we need to cut global emissions
by something like 50% by 2050
to try and keep temperature rise globally down to about 2 degrees.
We haven’t got a cat in hells chance of keeping it much below that
if we are lucky we can keep it to 2 degrees
and we can probably find ways to adapt to an average rise of 2 degrees.
That means 22 gigatonnes of global emissions by 2050
and if there are 9 billion people that means that if we divide those emissions fairly,
equally per head and I don’t know any other fair way of doing it
that would give us 2.5 tonnes of CO2 per annum each.
And that’s what we’ve taken in the UK as our target for 2050
we’ve said we’re assuming equal shares and that means we have to deliver
an 80% reduction in our CO2 emissions against a 1990 baseline.
My calculations based on a population here of 4.4 million suggest
that it’s roughly the same here it come out at about an 82% cut in emissions by 2050.
We tend to think that 2050 is the end of the story that if we get there with our
50% global emissions reduction and our 80% emissions reduction in developed countries
that we’ve done it that we’ll have won.
Let me also remind you that the pressure goes on
because by 2100 we’ve got to have halved emissions again
so by 2100 we have to be down to 9 gigatonnes of global emissions.
These are some big changes they’re some big numbers
We’re going to need some new technology and some big changes in behaviour.
This is the scale of our challenge in the UK
most of our emissions the largest proportion of our emissions are at the bottom come from
electricity generation, second largest is domestic transport
and then there’s heat and industrial processes
and the pink band just before the top is non-CO2 greenhouse gases. In the UK that’s mainly agriculture.
So we’ve got to get that 679 megatonnes down to 159 megatonnes
and that’s about a 76% cut from where we are today but an 80% cut from 1990.
If I look at the same data for Ireland then it’s similar but different
the most of your emissions the largest proportion of your emissions come from agriculture
That’s actually particularly challenging.
But the second largest is jointly energy and transport at about 21% of your emissions
and you need to get those down to about 11 megatonnes of CO2 equivalent by 2050
assuming my calculations are right and assuming you have a population of about 4.4 million.
So a similar picture but with perhaps some different emphasis
but transport is still a very dominant feature.
Road transport: something that’s important to all of us.
Globally contributes about 14% of emissions
in just about every rich country it’s the second largest contributor to emissions
I estimate it’s probably about 19% of your 21% here.
In the US it’s as much as 33% of their annual emissions
and we have almost a billion vehicles on the planet at the moment
and they already use more than half of global oil production.
We have almost a billion vehicles on the planet today but by 2050
if everybody had as many cars as the Americans do we’d have nearly 6 billion cars
and of course we want the developing world to get richer so it’s not an unreasonable expectation
to think that we may by 2050 have 2 to 3 billion cars on the planet.
And I don’t think anybody would suggest that this Indian family didn’t deserve
the same kind of safe and secure personal transport that I’m sure most of us benefit from.
We’re also going to see a lot of changes in relation to where people live.
We already have on the globe more people living in cities now than live in the countryside.
According to the United Nations predictions
by 2050 the urban population will be the same as the total global population today
and indeed some of the predictions suggest that some 70%
of those 9 billion inhabitants in the world will be in the rich and middle class category.
So there’ll be the people that have aspirations to one or more cars for their personal mobility
so cities are going to be hugely important as we go forward.
And our vision I think for cities has to be that they’re cities where the temperatures
are liveable, where the skies are clear and the air is clean, where they are safe
where they are not overwhelmed by road noise but also
where our prosperity and our wellbeing is enabled by personal mobility.
And so I would suggest to you since I come from Birmingham that we don’t want Los Angeles
we want the beautiful blue skies of Birmingham to be something that everybody can expect.
In the UK and again the picture is quite similar in many developed countries
the biggest part of our road transport challenge is cars or at least light duty vehicles
car and vans make up about 70% of our transport CO2 emissions.
Let’s explore that challenge in a bit more detail.
By 2050 we’ve each got these 2½ tonnes of CO2 and we need to decide what we’re going to do with them
because that has to be everything we need.
That’s the food we eat, that’s our bathwater, that’s our cars, that’s our houses,
that’s the industry we need to support us, that’s our electricity generation- everything.
The average new car in the UK today is somewhere up between 150 and 160 grams of CO2 per kilometre
So you drive at a fairly average distance and you emit 2.4 tonnes of CO2
That’s the scale of the problem.
Your car today probably emits your entire CO2 allowance for 2050.
So that’s the scale of the change we have to deliver but let’s add some more challenge to that
in the UK since the 1950s we have driven further and further every year.
It’s almost linear. Atually it’s a very interesting plot
because you can pick out rather nicely periods of recession.
And I would suggest this is a good predictor of recession because this showed by 2006 -7
we were already starting to drive slightly less far in the UK than you might have expected.
So this may be my way of telling the economists we have new ways to predict recessions coming
but despite that as you can see after recessions we suddenly drive more so it recovers.
So there is this relentless upward trend in how far we drive every year and that’s not particularly British.
Here is the picture globally and you can see the growth of urban drivers
but you can see from the 1960s onwards a relentless trend of increasing mileage driven.
Here’s a third part of our transport challenge
and that’s the vehicle ownership bit that I referred to before.
We have almost a billion cars today some people are predicting by 2020 we will have 2 billion cars
I think it is more likely that by 2030 we will be well on the way
and by 2050 we may be on the way to 3 billion cars.
Of course developing countries like India and China are the places where growth in car ownership
is occurring extremely fast
but if you look at European countries in the OECD, North America, Latin America
car ownership is still growing rapidly
and the predictions are to continue rapid growth over the next 20 years or so.
The fourth part of the challenge is: where do we put those cars?
This is a picture of a city, it is a real city
and the white bits are the bits that we as humans get to use
some of them we get to share with the cars because they are roads
the paler blue bits are all surface parking
and the deeper blue squares are all multi-storey car parks.
That’s Albuquerque New Mexico if we are not careful this is where we will all be living in 20 years time.
I think we might want to reclaim our cities for people rather than vehicles at some point.
And of course all the space that those cars take up
leads to my fifth challenge for transport which is congestion.
Research at MIT suggests that in congested urban areas almost half of the fuel people use
is used as they hunt for parking spaces and indeed more recent research
shows that actually if you look at the carbon intensity or the energy intensity of urban transport
it’s double that of travelling between cities.
So congestion in cities takes us back to the fact that that is driving increasing CO2 emissions.
And as we’ve heard in the introduction the story here in Ireland is the same as it is in other developed countries.
These are plots of the CO2 emissions from different sectors of your lives in Ireland
with agriculture, energy, transport, transport the line indicated by the 2 blue arrows
and as a result of all those factors I’ve been talking about
transport has been, right up until the recession recently,
transport has been the one that has been moving up and up and up in terms of emissions
and as we’ve been told up 156% increase in emissions from transport.
So reducing emissions in transport is absolutely critical and a real challenge.
So let me tell you then something about some of those very big numbers.
If we want to get to an 80% reduction or an 82% reduction let’s not argue about a couple of percent by 2050
but we’ve got numbers of cars, journeys and mileage increasing
we’ve also got some sectors of our economies where achieving 50% reduction is going to be really hard.
Agriculture is an area particularly obviously challenging for you here in Ireland
agriculture is an area where I think many of us cannot see
how we are going to get to 50 or 80% reduction in emissions by 2050.
Aviation is another area where there really is no pathway to 50 or 80% reduction in emissions.
So what that means is that areas like road transport, surface transport and energy
are going to have to play a much more than their fair share in these radical reductions in emissions.
They are going to have to over achieve and in fact for cars
we’re probably needing to think about: how do we achieve a 90%?
A very big number - a 90% reduction in per kilometre emissions from cars by 2050?
Now 2050 sometimes sounds like it’s a long time away but I run a university
and I remind myself every year that my graduates have working lives of just over 40 years.
So my graduates are going to have to deliver I hope as leaders of business and industry
are going to have to deliver this 80% reduction in emissions.
They are going to see extraordinary changes during their lifetimes’
and I hope that they’ll be very positive ones.
But it’s the working lives of my graduates from now ’til 2050
and I think that’s a useful way of thinking that it’s not actually that long a time.
So let’s again think about some of those big numbers we have a billion cars today
we might have 3 billion cars in 2050 we’ve got to reduce CO2 emissions globally by 50%
so we’ve got to achieve at least a 5/6th reduction in per kilometre emissions globally
that’s 83% reduction.
And again some sectors are going to struggle to achieve a 50% reduction
so energy and transport are likely to have to over achieve.
let me remind you that’s a very big number to be achieved
over the working lives of today’s graduates.
So how are we going to do it?
Well we are going to have to do it in three ways:
we are going to have to have very efficient people that’s a lot of behaviour change,
we are going to have them living because they mostly will be living in cities
in very efficiently designed cities
and we are going to have to have very efficient cars.
So these are not efficient people clearly the efficient people are on the bus!
One of the things we looked at in my review for the UK Government
was what we could achieve by changing the behaviour of us as drivers, of buyers of cars.
One of the things I think is most positive and most exciting is that actually today
if we could only persuade people to buy the best vehicle
the lowest emissions vehicle in the class they want to buy
we could save between 25 and 40% on new car emissions.
And similarly if we could persuade them to choose a smaller car we could save even more.
Here, from 2009 I think, this is the CO2 emission ranges of the classification of vehicles that we use.
The dark green bars show the range of I’ll call them usual cars in each category.
The black line across the bar actually shows the average car that people buy
and the grey-green extensions down to zero CO2 grams per kilometre
are where there are electric vehicles or where last year there were electric vehicles available
which was the Smart for 2 electric vehicle in the Mini category
and the Tesla sports car in the specialist Sports car category.
But if you ignore those because they are rather special and not many people have them
you could see that if you bought the lowest emissions car versus the average purchased car in each category
then there is a range of emissions reduction between 42% and about 25%
that’s achievable on models that are out there in the showrooms today.
So if we can persuade people to change their behaviour
we can already capture a huge improvement.
And there is a strong indication in the UK that some of the Government’s measures combined
with the recession have made people start to think about that
so in 2009 the only areas of car purchase which showed an increase
were the mini and the Supermini category.
I think you can claim even better performance here in Ireland
because I took from one of your SEI reports on the internet this chart
that shows these I think are new car purchases in the two lowest emissions categories
green at the bottom and the blue one so that’s up to 140 grams per kilometre
and you can see over the past 10 years this rapid rise
in purchase of cars in those lowest emitting categories.
So we are starting to get the message across and it’s encouraging very encouraging to see it happen.
But of course it’s not just the car you choose it’s the way you drive it,
it’s the speed you drive at and whether you drive at the speed limit or not.
It's how courageous our governments are going to be in reducing and enforcing speed limits
If on the motorways in the UK we reduce the speed limit to 50 miles an hour
we could get a 20% fuel saving it wouldn’t be popular
but it does save a lot of fuel and a lot of emissions.
If we could persuade people to walk to school or to the supermarket or to share cars
there’s even more to come.
I think it’s not unrealistic to say there is a very big number opportunity here
which is that there’s something like a 50% potential reduction in CO2 emissions from cars
available today with no technology at all
and of course it would save people 50% of their fuel costs.
Of course government departments know that this is economically rational but very hard to achieve.
But in general our environmental awareness in the transport area lags that in other sectors
we’re still attracted to big cars because we think they’re symbols of status.
We don’t really look into the future at fuel costs savings
and indeed when we start to save money on fuel we start to spend it on driving further.
The rebound effect is a very well researched phenomenon.
So we need efficient people and there is some interesting data that suggests
that certainly our car buying habits are starting to change.
But we need efficient cities and North America has some very inefficient cities
Calgary being one of them where 90% of trips are made by car.
Asia has some very efficient cities
Hong Kong absolutely stands out at being less than 20% of trips are made by car
and Dublin I’m afraid I have no idea.
But this is a plot that shows you the percentage of journeys taken by car against the GDP per capita
and Hong Kong, London and Calgary are all on roughly the same line in terms of GDP per capita
and you can see how Hong Kong absolutely stands out
as being a city where very few trips are made by car.
Indeed I was in Hong Kong last week they tell me this is wrong
they tell me they only make 10% of trips by car.
There were a lot of cars on the road so I’m not quite sure I believe them.
How you design a city and how people in that city behave has a big impact on car usage.
We’ve done some modelling on the Committee on Climate Change looking at city growth
and it’s very very clear that if you can grow cities by compaction rather than by dispersal.
Dispersal being that North American model where you continuously move further out
and you build those elegant gated communities but they don’t have enough people in them
to sustain any kind of cost effective public transport
at a reasonable frequency so you drive more and more car use.
Where as if you fill in gaps leave the countryside around the edge to enjoy
fill in the spaces in the city you can grow a city quite significantly
with relatively little in fact in some cases with no increase in car usage
and you are also much more likely to be able to sustain a cost effective public transport system.
So governments need to use carrots and sticks
they need to have policies that will give them dense cities
and the carrots are going to be that you have frequent subsidised clean and secure public transport
and the sticks are going to be that you have high vehicle tax, high fuel prices,
congestion charging, very expensive parking all sorts of things that are going to
put you off using your car or having a car in that city.
Those are again challenging things for governments to do but we elect governments
so we have to be prepared to elect governments who will do challenging
and potentially unpopular things.
The third part of this is that we have to have efficient vehicles
and that’s what I’m going to talk quite a lot about.
The really positive thing actually is that we can improve the efficiency
of internal combustion engine ICE vehicles by about 50%
The internal combustion engine is going to be with us for some time to come.
We can make vehicles lighter so reduce their inertia,
we can radically improve the aerodynamics particularly the under body aerodynamics,
we can put on low rolling resistance tyres
that can give you an immediate 3-4% improvement in fuel economy
and of course we can make significant changes and improvements to the power train.
Typical petrol engines in cars are delivering levels of efficiency
in terms of their use of fuel of only somewhere around 15%
so there is an enormous amount to go at and I think there’s now plenty of evidence and analysis
that says internal combustion engine vehicles can improve in efficiency by 50%
and here are a range of the options that you can now buy on cars on cars in the showroom.
And when I was doing the King Review in 2007 & 8 these were just coming in
they’re now becoming fairly standard so stop-start in those days was a novelty
stop-start with regenerative braking is really now quite common
and a stop-start with a regenerative braking in an urban environment
can produce something like 24% improvement in fuel economy.
So well worthwhile paying a few hundred pounds more on the price of your car.
So let’s do some more simple arithmetic: a billion cars today, 3 billion by 2050,
let’s say the emissions today are X
if we didn’t improve those cars we would have 3X emissions in 2050.
Those areas 1 and 2 of efficient drivers and efficient cities might just about give us
a 50% reduction in emissions so that would get us back down to 1.5X.
And if we made those cars 50% more efficient
that would half that again that would get us to 0.75X but our target is to get to 0.5X.
A 50% reduction in global emissions reduction
so we have to go beyond the internal combustion engine
if we are going to achieve the kind of improvements that we absolutely have to deliver.
And the options of course are that we can use biofuels, that we can use electricity,
that we can use hydrogen, or that we can change behaviour even more than I’ve envisaged already.
We can do something really really radical but I think that’s unlikely to happen.
I’m going to suggest to you that biofuels are interesting but at the moment quite dangerous.
We really haven’t yet cracked how can we feed 9 billion people
and produce biofuels for 3 billion cars?
I think we will or for at least for some proportion of those cars
but we haven’t done it yet and we need a lot more research and development in that area.
Hydrogen is certainly going to be a fuel of the future
but again we haven’t found ways yet to make it and to distribute it in an energy efficient way.
The thing we can start to do now is using electricity to power vehicles
but whilst that’s what I’m going to talk about
I want to just emphasis we are going to need all of these solutions.
This is not one solution is better than the others when we have 3 billion vehicles
we’re going to need a diversity of solutions there is no point in exchanging
a dependence on oil for a dependence on lithium or a dependence on something else.
We’re going to need a diversity of solutions if we’re going to have a sustainable future.
But let’s talk about electricity - primarily ultra-low carbon cars.
Cars over the next 40 years are going to undergo a fairly radical transformation:
we’re going to move from mechanical drive to electric drive,
from internal combustion engines to batteries and electric motors
and we’re going to move to having cars which are very much more connected
with the information environment around them.
And here are some examples: a luxury car such as the Jaguar Limo-Green,
the small university car we have
the one which says Aston University on it, which is a Smart for 2 electric vehicle
and one of the small family cars in the new range of Renault-Nissan electric vehicles
that are coming out over the next year or so.
One of the things a lot of people say about electric cars is
actually with the high carbon electricity systems we have they aren’t really any benefit.
Well I’ve done my best to get the numbers right
in the UK the carbon intensity of electricity generation in the UK at the moment
is running at just under 500 grams of CO2 per kilowatt hour
and in Ireland I think it’s about 530 from the latest report I could find so it’s not very far away.
If we take a typical family car petrol car of 160 grams per kilometre the blue line at the top
If we take an old Toyota Prius and a new Toyota Prius we get the green band
obviously those 2 are completely independent of the carbon intensity of grid electricity
because they are fuelled by fuels that don’t come from grid electricity.
And if we say well how would an electric car perform?
Well clearly if grid electricity had zero carbon emissions
so would our electric cars fuelled by that electricity.
But as the grid emissions go up our red line rises
and what we would see is that if you could buy one for an electric 4-seater family car medium sized
in Ireland today you’d be slightly better than an old Toyota Prius but not as good as a new one
and in the UK you’d be almost as good as a new Toyota Prius.
So it would still be a pretty efficient car even though those are pretty high carbon electricity systems.
And what we absolutely have to do in developed countries
if we are going to meet our carbon targets is we have to decarbonise electricity generation.
So in the UK electricity generation is 26% of our annual emissions
and our modelling on the Committee of Climate Change says
that by 2020 we’ve got to get down to about 300 grams of CO2 per kilowatt hour
and by 2030 we need to be down below 100 grams of CO2 per kilowatt hour
if we are going to meet our targets in the Climate Change Act.
Here in Ireland I say I think you’re about 523 grams at the moment
and if you meet your EPA scenario of a 31% reduction by 2020
that’ll take you down to 369 grams. So where does that take our electric car?
Well it moves us from these 2 arrows labelled 1
down to those 2 arrows labelled 2 you’re the mauve one and I’m the blue one.
And that would take you well below the emissions from a Toyota Prius
and indeed would deliver something like a 50% reduction from an average petrol driven car today.
And as you can see with the arrow labelled 3 with our 2030 modelling in the UK
if we can get down to about 90 grams of CO2 per kilowatt hour in our electricity system
we’ll actually have achieved in an electric car a 90% reduction in CO2 per kilometre
from an average petrol driven car today.
So these are big numbers but they aren’t unrealistic.
So I’m a huge fan of electric cars as you can probably tell
but there are lots of concerns about them and they all have some reality in them.
First of all people think they aren’t a low carbon alternative
I hope I’ve demonstrated to you that they’re pretty efficient today
and by 2020 they will be a very low carbon alternative.
The second area is range anxiety: at the moment batteries are very expensive and very large
so yes the vehicles around today don’t have very long ranges
typically they’re up to about 100 miles in fact and yes they do take a long time to charge
if you slow charge them which is the most efficient way to do it they take about 6 hours.
People think they are going to overload the electricity system
and of course people are concerned about the fact
that as a new technology they are actually very expensive.
But let’s look at that issue of range. If you had a car that only went 100 miles before you had to charge it.
Well actually in the UK 97% of the trips we make by car are less than 50 miles
and that accounts for 77% of CO2 emissions.
99% of trips we make are less than 100 miles
and that mauve coloured box at the bottom of all the bars on this diagram is commuting.
We could easily do almost all our commuting in the UK
in an electric vehicle and save very very significant levels of CO2 emissions.
And it’s not just something we do in the UK. Here’s some equivalent data from the United States.
The UK is a small island the United States is a big country
but 80% of people in the United States drive less than 50 miles a day
and strangely if you look at data for France and you look at the data for Germany
it’s actually all very consistent.
There’s some kind of distance of about 50 miles a day which is what most of us think is enough
there seems to some almost innate human desire not to have to drive further than that every day.
Just taking the “how do we behave?” a bit further
BMW recently completed a trial of 50 BMW Mini E's, electric Minis in Berlin
and they compared the behaviour of the drivers of those electric Minis
with the behaviour of the drivers of normal Minis and 1 Series BMWs
so they had an equivalent number of drivers driving petrol and diesel fuelled cars of the same size.
And what they found was that actually the Mini E drivers drove slightly more
drove slightly further every day than their non-electric vehicle driving colleagues.
They had a 200 kilometre range and 90% of users said this was sufficient.
And we’re all worried about range anxiety
that every time you saw a socket you could plug your car into you’d charge it
but what they discovered was that when people became confident with their cars
they couldn’t be bothered to plug them in and they charged them on average once every 3 days.
So that’s what this shows you that the average is that people charge them
on average once every 3 days but every couple of days was extremely common.
It’s also interesting data because it tells you that all our concerns
about the kind of charging infrastructure you’d need
are rather challenged by this a majority of drivers never used public charging stations.
They really liked to charge at home preferably
and at work was their second favourite place for charging.
So before we cover our cities with electric vehicle charging points
we should recognise that most of us would charge at home or at work.
And we’re doing currently a similar pilot in the UK in Birmingham
and actually driver behaviour is remarkably similar to this.
So is it really going to cause us problems in terms of electricity generation?
Well here’s another set of back of the envelope calculations and I hope I’ve got the numbers roughly right.
You in Ireland can generate I think about 41 terawatt hours per year
of which you'd use about 22 terawatt hours per year typically.
Well if an electric vehicle battery stores about 25 kilowatt hours of energy
and if you all had electric vehicles
all 2 million private cars in Ireland then that would store about 50 gigawatt hours
and if you behaved like the Mini drivers in Berlin and you charged them fully every 3 days
that would be 6.1 terawatts hours per year
that would be 15% of your current generating capacity.
Now the challenge there is not to increase your generating capacity by 15%
The challenge is to deliver 2 million electric vehicles!
These really are quite small proportions of generating capacity
and the numbers if you take the 30 million cars in the UK
you get almost exactly the same calculation that you would need 15% of our current generating capacity.
But of course and apologies this isn’t Irish data it’s UK data
if we charge them during the night-time dip between about 11 o’clock at night
and 6 o’clock in the morning we could probably charge 50% of them
without needing any additional generating capacity at all.
And then of course there is the real issue of cost.
Electric vehicles do currently cost something of the order of 10 to 15,000 more
than an equivalent petrol vehicle today.
Of course the car industry has had a hundred years to cost reduce the internal combustion engine
it’s only just starting to cost reduce the electric vehicle.
The UK Government is trying to address this by offering price support of £5000 a car starting this year.
Other policy approaches I think could be very helpful
would be enabling us to buy or to lease ultra low carbon cars from our pre-tax salaries
because actually for a number of years we’re going to need this kind of support.
But I think there’s every confidence that battery prices are going to fall very fast in the future
and that actually they could be 70% cheaper with technology maturity.
And our calculations our modelling on the Committee on Climate Change says that by 2020
an EV will actually be a lower cost solution to your mobility needs
than a petrol or diesel engine vehicle when you look at it on a through-life cost basis
taking into account the cost of fuel.
The biggest challenge we have is the speed of change.
In the UK we’re trying to encourage the Government
to adopt a target of 1.7 million electric and plug-in hybrid electric vehicles by 2020.
That would need to be 17% of new cars sales and it would be 5% of the UK car fleet.
The reason we’re trying to get them to adopt that kind of target
is that 10 years later we need to have reached 60-85% of new vehicle sales
being ultra low carbon cars if we are going to meet our 2050 targets.
So here are some big numbers this is not a matter of “every little helps”
this is a matter of us making big changes happen.
But we really do want that vision of cities we can live in
with clear skies and clean air which is safe and quiet and full of prosperous and happy people.
And I’m a great Dilbert fan but I don’t think this is one of his best ideas!
And I’d like to say thank you very much to all sorts of people
who’ve been an enormous of help to me over the last few years
while I’ve been working in this area.
And I’d just like to leave you by saying if you want to find the King Review
it’s on the Treasury website and if you want to find our reports
from the Committee on Climate Change and there are lots of reports subsequent to these 2
then they’re on the Committee on Climate Change website.
So thank you very much.
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Prof. Julia King, Aston University.
Sustainable transport: urgent action required