On 26 March 1886, the House of Lords debated amendments to the recently enacted Electric Lighting Bill, with Lord Houghton proclaiming electric lighting had a ‘very brilliant future before it’. Exactly 125 years later, the lights will go out on this optimistic vision of a better future.by Colin McInnes
The World Wide Fund for Nature (WWF) is
asking for lights to be switched off in homes, public buildings and historic
monuments for 60 minutes during Earth Hour, an annual event highlighting the impact of energy
use on the environment. ‘Switching off your lights is a vote for Earth…
[L]eaving them on is a vote for global warming’, states WWF. Unfortunately the
symbolism of this gesture is entirely misplaced and ignores the socially and
environmentally progressive story of artificial lighting.
In 1859, a small farm in Pennsylvania became the site of the first successful oil well in the United States. Oil was about to save the whale. With the Gulf of Mexico spill still fresh in our minds this seems scarcely credible. However, it had been known since 1854 that oil could be fractionated into a range of liquids including paraffin for lamps. Prior to this, oil from whales lit many American homes. So, in a reversal of the usual environmental narrative, the oil industry saved the whale. This is why the symbolism of Earth Hour is so entirely misplaced, and indeed rather ironic. The wonderful story of artificial lighting has been one of vast improvements in energy efficiency, plummeting costs and soaring utilisation. We now burn coal, methane and uranium to power artificial lighting. In the past, we burned whales.
While the use of paraffin saved whales, Thomas Edison
killed the paraffin lamp. In turn, Edison’s filament electric lamps were
eventually replaced by tungsten, fluorescent and now highly efficient
solid-state lighting. Each new innovation delivered a step change in energy
efficiency. However, these improvements in efficiency did not lead to a
reduction in energy use but, wonderfully, greater energy use, brighter homes
and workplaces and an escape from the diurnal day-night cycle.
Until recently, the world was an unimaginably darker
place. At the start of the eighteenth century, humanity used 100,000 times less
energy for lighting than at present. The candle-lit world of Earth Hour is a
temporary and theatrical recreation of this pre-industrial era, the passing of
which should be celebrated rather than used to symbolise our current excess.
Improvements in energy efficiency can also be seen in
the transition from wood to coal, oil, methane and uranium. Each fuel produces
more energy per unit weight and significantly less carbon. For example, one
kilogram of coal can power a light bulb for four days, one kilogram of methane
for six days and one kilogram of the carbon-free uranium for a remarkable 140
years. These energy transitions did not take place because of emissions targets
set by the Victorians, but because each new fuel offered lower costs or better
energy utility. As an entirely unintended consequence we have been continually
reducing the quantity of carbon emitted per unit of energy produced. It is
through an acceleration of this long-term historical decline that carbon
emissions will eventually start to fall while global energy consumption
continues to rise.
Modern, compact, combined-cycle gas turbines and
nuclear plants now produce copious quantities of energy, but use modest amounts
of steel, concrete and land. Ironically, the WWF’s vision of our energy future
is based almost entirely on diffuse renewable energy that would require
astronomical quantities of material, land and capital to deploy. It is
improving energy density that has led to a relative decoupling of energy
production from the environment, both in terms of land, material resources and
carbon. In the future we will achieve an absolute decoupling by burning
methane, uranium and later thorium rather than coal and oil, not just because
they are cleaner fuels, but because they are better fuels.
These improving efficiencies have led to an historical
decline in the real cost of energy. But as with all improvements in energy
efficiency, the long-term result has been a growth in energy consumption which
will continue until demand is saturated – and global demand for is far from
being saturated. So as ultra-efficient solid-state lighting becomes widely
available, the end result will be a further growth in energy consumption for artificial lighting,
particularly when its cost falls within the reach of the poor of developing
nations.
The expanding use of artificial lighting in the
developing world could well accelerate energy consumption: children will be
able to read after sunset, local businesses will stay open longer and work can
take place indoors. This will lead to a better educated and more productive
society with growing GDP per capita. This is exactly the progressive, positive
feedback that led to soaring prosperity in the developed world. Indeed,
artificial lighting is so important to economic development that some have
suggested using night-time illumination, as measured from satellite imagery, as a proxy for GDP. For example, the contrast
between North and South Korea is stark; in North Korea, it seems, every hour is Earth Hour.
The developing world should be able to achieve the
developed world’s level of economic progress significantly faster as technical
innovations such as solid-state lighting quickly circulate through global
trade. This acceleration is evident from historical trends measuring the
quantity of energy required to produce a unit of GDP. While the United States
and other developed nations took some 200 years to move from inefficient heavy
industry to high-technology prosperity, China is tearing through this
development cycle in a matter of decades. This is a truly stunning success.
The alternative vision promoted by Earth Hour is one
of energy austerity. The WWF-commissioned Energy Report, envisages a world of
nine billion people in 2050 on the same level of global energy consumption as
today. Their vision is of development within limits. For example, rather than
advocating an ambitious programme of grid electrification in the developing
world, WWF offers low-technology cooking stoves powered by concentrated
sunlight. ‘These small scale solutions lead to a significant reduction in energy
demand’, WWF enthuses. It is just a shame that they require food to be prepared
outdoors during daylight hours when other productive labour could be
undertaken.
The real challenge now is to develop energy
technologies that can meet rapidly growing unmet demand in developing nations.
These are the people who will need copious quantities of low-cost energy, many
of whom will have no alternative but to participate in Earth Hour. We will need
to replace indoor cooking using wood and animal waste with something far better
than solar stoves. We need to improve energy efficiency so as to grow, not
reduce, energy consumption.
In advocating devices such as solar stoves for the
developing world, WWF is confusing energy efficiency with demand reduction.
Efficiency is a natural consequence of technical innovation and leads to a
growth in consumption for an energy service until demand is saturated, after
which energy consumption for that service can fall. Demand reduction however
can be a socially regressive tool that uses artificial increases in cost to
suppress energy consumption. For example, so-called ‘smart meters’, which will
connect domestic appliances to energy utilities are seen as a useful tool to
reduce overall energy consumption in developed nations.
Certainly, using a smart meter to allow utilities to
remotely switch off domestic freezers for a few minutes to clip peak grid
demands will go unnoticed and will lead to a much more efficient distribution
and utilisation of energy. However, artificially raising the price of energy,
for example, during periods when demand is high and future renewable energy
production is low, will simply impact on the poorest first and the most
affluent last. Rather than trying to meet people’s needs, this approach is
content to manipulate them.
The overarching aim of Earth Hour is to show that
collectively humanity wants a governmental ‘commitment to actions that will
reduce greenhouse gas emissions’. Unfortunately, the policies advocated by WWF
are one of the major obstacles to such a low-carbon future. For example, when
rating the ‘climate performance’ of the G8 nations, nuclear-powered France
comes just third because ‘WWF does not consider nuclear a viable policy
option’. WWF cannot simultaneously advocate a reduction in greenhouse emissions
while forcefully campaigning for the global prohibition of nuclear energy.
Sweeping darkness around the globe, Earth Hour will
also dim many symbols of genuine human achievement at a time when we need to
call on our technical ingenuity and inventiveness to meet the energy challenges
of the future. So, if you do find yourself in the dark during Earth Hour, think
of those in the developing world who will remain in the dark when Earth Hour
ends. When you switch the lights back on, think of the overwhelmingly
civilising and liberating influence of the growth of artificial lighting
achieved through improvements in energy efficiency - and think of the whales
saved by 150 years of continuous technical innovation.
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