Once upon
a time, if you wanted to go for a drive in your motorcar in some English towns,
you were limited to a speed of 4 miles/hour and you had to have a guy running
before you waving a red flag.
Those very early contraptions were ungainly,
smelly, noisy things that constantly broke down. Before Henry Ford and mass
production, they cost a bomb too.
But the love affair between the motorcar and
humans was underway and it would take more than a century before the passion
began to cool.
Motoring in the late
19th century. Would you spend a year’s wages on an ugly duckling
like this? And unless you were yourself adept with a spanner, you would have had
to employ a chauffeur-mechanic to keep the cantankerous beast running at least
some of the time.
The first
internal combustion engines ran on petrol but diesel was not far behind. Rudolf
Diesel’s first engine, which won first prize at the Paris Exposition
Universelle of 1900, actually ran on peanut oil. This engine used an
‘atomiser’ (fuel injector) and did not require the finicky electrical apparatus
that the petrol engine needed. A little later, diesel fuel became the standard
for those engines. They were comparatively reliable but had a poor
power-to-weight ratio. They were ideal for standing engines for purposes such
as electricity generation and pumping systems, and were soon adopted by the
military to power the submarine, the terror weapon of WW1. Diesel produced his
‘Petite’ engine for cars in 1910 but it did not catch on. The diesel engine
did, however, take on for locomotives and heavy road transport vehicles a
little later.
Producing
lighter, more powerful petrol engines was spurred largely by the parallel love
affair between people and the aeroplane. WW1 saw the rapid development of aircraft
engines that powered nimble fighters such as the Fokker series.
A mere decade after
the Wright Brothers, these little beauties were masters of the sky
Small
petrol engines, initially used to power glorified push-bikes, soon found uses
in applications such as lawn-mowers and portable generators. The internal
combustion engine became part and parcel of everyday modern life. In aviation,
the piston engine was successfully challenged by the jet engine after WW2, which
too relies on the internal combustion of a fossil fuel.
Just a
quarter century or so ago, the suggestion that the internal combustion engine
would have to be phased out by the middle of this century would have been met
with sneers. But that’s what we seem to be heading towards. The days of the motorcar
car are certainly numbered. Western governments are starting to set deadlines
for their demise – for instance, the last motorcar will be sold in the UK in
2030.
While
climate change has been the prompt that has brought things to a head, the
internal combustion engine came under scrutiny for its role in air pollution,
particularly in cities, about half a century back. The main reason why the air
of many a city in developing countries is unbreathable is motor vehicles, not
heavy industries. People became serious about reducing the environmental
damage, particularly to air quality, done by motor vehicle engines. Remember
the days when we used leaded petrol? Those came to end because of the damage
being done to people’s, particularly children’s, nervous systems by high blood
lead concentrations. At about the same time, the thumbs-down was given to all
but the smallest 2-stroke petrol engines because of the disproportionately high
level of air pollution they cause.
So where do
we go from here? For cars, the obvious answer is to go electric. The first
electric car was produced in the 19th century but its time had not
come. It now has.
Electric cars then and
now. One thing they have in common is that they both need recharging, which
takes a lot longer than refilling a fuel-powered vehicle.
Electric
cars will see city air improving but are, in some ways, a con as a means to
reduce greenhouse gas emissions. The electricity to recharge them has to be
generated, and if that is done by burning coal – still the principal means of
mass electricity generation – all it does is shift the problem elsewhere.
Another
aspect of moving to electric cars that is seldom mentioned is the increase it
involves in the mining of metals that are used in batteries. The conventional
car battery uses lead but the new breed of batteries that will power cars rely
on metals such as nickel, cadmium and cobalt. Mining such metals isn’t exactly
an environmentally friendly activity and old discarded batteries create a
problem of heavy metal wastes getting into the environment.
Heavy
diesel engines are not going to be so easy to replace. The modern locomotive is
already electric in the sense that it is propelled by diesel-electric engines
but replacing the diesel component is a tall order. Total electrification of
the entire rail network may be the answer, but that will be humungously
expensive and will significantly raise the demand for electricity generation –
again, we are looking at simply moving the problem elsewhere. I can’t see a loaded-up
Mac truck being run by a set of batteries either. Then there are ship engines
that run on fuel oil.
And what
about the jet engine? A Boeing 747 simply can’t ‘go electric’. There may be a
future in using zeppelins for some air transport purposes – they did, after
all, operate a trans-Atlantic passenger service by zeppelin in the 1930s – but
the jet engine seems impossible to replace in the foreseeable future.
These can replace
trucks, trains and aircraft for transporting cargo, perhaps even for some
passenger services.
An idea I
had many years ago was to go back to steam for ships, trains and heavy road
vehicles, using gas-fired steam generators. It doesn’t eliminate the carbon
imprint but gas is a much cleaner fuel than diesel. An added bonus is that you
could use biogas or even alcohol instead of natural gas for that purpose.
Or maybe we
should revisit Rudolf Diesel’s engine that won first prize at the 1900 Exposition Universelle. Imagine running
ships, trains and trucks on peanut oil. It would certainly reduce our
dependence on Middle Eastern petroleum. Such engines still produce greenhouse
gases, but no oxides of nitrogen. It could be a disaster for peanut butter
addicts like yours truly if the price of peanuts went through the ceiling,
though. Alright, so I’m being flippant now… hey, got a better idea?
Eliminating
the internal combustion engine altogether in the foreseeable future is in the
realm of Cloud Cuckoo Land. The
replacement of the petrol- and diesel-powered motorcar with an electric vehicle
is a step forward in cleaning up our city air, but it comes with its own
environmental price-tags as I have noted above. At the global level, I doubt
whether it will do much for greenhouse emissions while so much electricity world-wide
is still being produced by fossil fuel-fired, especially coal-fired, stations.
That is the real issue, and will remain so until we realise that the future of
mass electricity generation has to be nuclear. That, however, is another story.
Barend Vlaardingerbroek BA, BSc,
BEdSt, PGDipLaws, MAppSc, PhD is an associate professor of education at the
American University of Beirut and is a regular commentator on social and
political issues. Feedback welcome at bv00@aub.edu.lb
1 comment:
Its strange, but I haven't noticed everyone, especially the younger generations, becoming more intelligent since we took lead out of petrol.
In fact I see no evidence at all that the world is being run any more intelligently, or even to the same level!
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