Tag Archives: Engineering

Energy diversity

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Probably most people never give a thought to where the power comes from to switch on the light or their TV.  Engineers are primarily responsible for ensuring that the right number of power stations are available to supply exactly the right amount of electricity to match demand.  If supply exceeds demand then energy needs to stored, for instance at the Dinorwig storage scheme [ http://www.fhc.co.uk/dinorwig.htm ]; however if demand exceeds supply then someone’s lights will dim or go out until an additional power station can be switched on or the output increased from one that is running.  The latter is a relatively quick process but switching on a power station takes longer than half time in a televised football match when everyone switches on the kettle or makes some toast.

You can see how national demand in the UK varies in real-time at the National Grid website [ http://www.nationalgrid.com/uk/Electricity/Data/Realtime/Demand/demand24.htm ].  There is a similar “national electricity meter”  for Spain  [ https://demanda.ree.es/demandaEng.html ], which also shows the blend of energy sources being used.

Blending sources such as fossil fuels, hydro, nuclear, solar, tidal and wind is the key to a cost-effective sustainable energy supply with the diversity to adapt to unexpected circumstances.

Sustainable democracy

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The concept of a continuously growing economy does not seem compatible with the creation of a sustainable society.  It is not possible to carry on producing more and more in a world that has finite resources, see my post on an ‘Open-world Mind-set’ on 4th January 2013.

Eventually, engineers and scientists will solve the problems of providing a sustainable and high quality of life to the global population.  However, one likely consequence is a world economy that does not grow, at least not as currently measured.  Modern Western-style democracy is based ‘on the ability of competing parties to offer voters a better material future (more stuff) year by year’ [Andrew Marr, A History of the World, MacMillan, 2012].  What is going to happen when voters acknowledge this vision is unrealizable?

Perhaps it is happening already in the US and Europe.  The turnout in elections is low – between 30 and 40% in local elections in the UK last week.  The PR industry is playing a bigger role in politics and selling a brand rather than policies.  Economic growth has all but stopped, and is proving difficult to re-start.

I suspect that sustainable engineering is going to be easy to achieve compared to eliminating the dependence of our democracies on growth.  Let’s hope the patient does not die before being cured of the addiction!

Sonic screwdrivers

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No relevance except for the tranquility or absence of noise.

In a recent post on Noise Transfer [27th March, 2013] I highlighted the parallels between energy transfer by heat and noise.  In many cases, the heat and, or noise transfer is by-product of a process through which energy is dispersed to satisfy the requirements of the second law of thermodynamics, that entropy must increase as a product of all real processes.  Entropy, can be interpreted as a measure of dispersion, or the lack of availability to do anything useful and this applies to most heat and noise that we encounter in everyday life.

We can use concentrated sources of heat to produce useful work such as the furnace in a power station, but the second law of thermodynamics demands that we waste a substantial proportion of it through the creation of entropy.  It is also possible to use concentrated sources of noise, such as ultrasonic transducer to perform useful work for us, such as in surgery and the manufacture of composite materials [see Professional Engineering, http://profeng.com/features/good-vibrations ]; although an all-purpose sonic screw-driver of the kind used by Dr Who is not possible, yet.

Extraordinary technical intelligence

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In his book ‘A History of the World’, Andrew Marr identifies a recurring process in the development of societies, from an agricultural revolution that releases enough people from food production in the countryside to enable basic manufacturing in town and cities, through an industrial revolutions leading to more sophisticated manufacturing and a large, rapid rise in the standards of living.  This process happened first in Britain during the 18th and 19th century, in the US during the 19th and 20th century and then more quickly in Japan, Korea and Taiwan in the second half of the 20th century.  It is happening now and even faster in China with the same ‘grim working conditions in the factories, the raucous enjoyment of plenty by the winners in the cities and a certain recklessness about pollution’ to quote Andrew Marr [Marr, A., A History of the World, MacMillan, 2012].  It is starting in India and Africa might be next, though in the Financial Times on Friday 22nd March, 2013 Chandran Nair argues that we should reverse the flow from the countryside to the cities if we want to achieve a sustainable society.  This might just be possible in Africa, probably not in India and China seems set to follow the well-beaten path to urban industrialisation.

What comes next in the process?  Perhaps a loss of interest in manufacturing industry, followed by over-spending by individuals and governments, economic recession or collapse and stagnation of growth.  Andrew Marr suggests that the wealth based on manufacturing derives from ‘mankind’s extraordinary technical intelligence’ and that there is ‘a long lag in advancing our political and social intelligence’.  The stale-mate at the heart of US politics and the failure of successive UK governments to avert a multi-dip economic recession would suggest the need to advance our political intelligence.  In the meantime we might lose our technical intelligence if don’t train more graduates in technology [see my post on Financial crisis, 27th March, 2013].