Energy | 31. May 2010 | posted by Jan Oliver Löfken

Energy question of the week: Is there such a thing as free electricity?

When we pay our electricity bill, we are paying for more than just the operation of wind turbines or nuclear power stations. What with rental for the electricity meter, costs for using the power grids, value-added tax and a tax on electricity, coupled with a surcharge for the preferred sourcing of green power, the final price we pay is effectively double the generation cost. Having said that, is it conceivable that there is such a thing as free electricity in the ever more dynamic power market?

The answer is yes – there is actually electricity that the power grid operators have to pay for, to get rid of it. The European Energy Exchange (EEZ) in Leipzig makes this possible. In the past year alone, short-term power surpluses have actually pushed electricity prices into the red on 18 occasions. Due to an absence of feedback control mechanisms, coal-fired and nuclear power stations experienced periods of surplus supply at times of low demand that coincided with favourable weather conditions for the production of wind power. However, since the power grid is unable to store electricity, this surplus power still had to be used to assure stable operation of the system. The outcome was that power grid operators contributed up to 13 Eurocents per kilowatt-hour to encourage major industrial companies to use the surplus electricity.

Handeslraum in der Strombörse in Leipzig, Bild: EEX, Bild oben: Wikipedia CommonsNegative electricity prices are an indicator of a market functioning properly

The real winners in this scenario were the operators of pumped-storage power stations, a fair number of which are based in Austria. With this 'free' power, they are able to pump water up into their reservoirs, and then release it back through their turbines at times of peak demand and high prices. Despite the fact that it is left to German electricity customers to pick up the costs for this, free electricity is not in any way an alarming event. "Negative electricity prices are the logical consequence of market behaviour," states Kurt Rohrig from IWES, the Fraunhofer Institute of Wind Energy and Energy System Technology, based in Kassel.

Due to the fact that, since the early part of this year, wind and solar power are being traded more frequently at Leipzig's Energy Exchange, periods where prices have a negative value could occur more often through 2010 – an unmistakable indicator of the fact that existing power lines are no longer able to cope with rising requirements. To eliminate negative prices, the power grid would have to be extended beyond the national borders of European countries. In other words, new long-distance power lines would make it much easier to balance out a regional surplus in one place with a simultaneous shortage of power in another European country.

More than 42 000 kilometres of new long-distance power lines needed by 2020

This expansion into a close-knit European network of power grids is already starting to take shape, at least on paper. Kurt Rohrig states that, according to the European Network of Transmission System Operators for Electricity (ENTSOE), over 42 000 kilometres of new power lines will be needed by 2020. This enhanced long-distance power transmission grid, coupled with more intelligent control of power generators and consumers, holds the key to a more liberal market for electricity in which the fairest possible prices can be delivered, including during periods of strong wind.

Further information:

European Energy Exchange (EEX) Leipzig

The DLR Energy question of the week in 'The future of energy' Year of Science

The Federal Ministry of Education and Research (BMBF) has given the Year of Science 2010 the motto 'The future of energy'. For this reason the science journalist Jan Oliver Löfken will this year answer a question on the subject of energy in his blog each week. Do you have a question about how our energy supply might look in the future? Or do you want to know, for example, how a wave power plant works and how it can efficiently generate electricity? Then send us your question by email. Science journalist Jan Oliver Löfken will investigate the answers and publish them each week in this blog.

 

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About the author

Energy journalist Jan Oliver Löfken writes among other things, for the Technologie Review, Wissenschaft aktuell, Tagesspiegel, Berliner Zeitung and P.M. Magazin on issues involving energy research and industry. For DLR, he answered the Energy question of the week during the Year of Energy 2010. to authorpage