Energy Blog | 08. November 2010 | posted by Jan Oliver Löfken | 3 Comments

Energy question of the week: Why do solar power stations also need so much water?

Solar power plants either make use of solar cells to generate electricity directly, or they use heat from concentrated sunlight to generate it indirectly. The illuminated surfaces of solar panels or mirrors must be as clean as possible so that sunlight can be used most efficiently. Water is used for cleaning, but with only 70 to 80 litres of water per 1000 kilowatt-hours of power generation, cleaning forms only the smallest use for water in solar power plants. What do these power plants need so much water for?

A lot of water for cooling

Solar-thermal power plants, like those operating in Spain and the USA, cannot work without efficient cooling. Steam, superheated to several hundred degrees Celsius, is used to drive a turbine, which in turn drives a generator. The efficiency of this process (the Clausius-Rankine cycle) is inversely proportional to the pressure downstream from the turbine, since lower downstream pressure generates suction that draws the steam through the turbine faster. The system designer lowers the downstream pressure by cooling the steam exiting the turbine, which reduces its volume. The steam pressure at the turbine inlet is around 100 bar, compared to less than 0.1 bar at the outlet.

Andasol 1: Das spanische Solarkraftwerk arbeitet mit Nasskühlung und verfügt über 500.000 Quadratmeter Spiegelfläche. Bild: Solar Millennium AG.

Andasol 1: The Spanish solar power plant uses wet cooling and is equipped with 500,000 square metres of mirrors. Credit: Solar Millennium AG.

Dry cooling for desert power plants

Cooling towers are used to discharge the heat generated by the condensation of steam in coal and nuclear power stations to the environment. A typical solar-thermal power station using wet cooling towers consumes about 3800 litres of water to generate 1000 kWh of electricity. In power stations in Andalusia in southern Spain, this water can be supplied by rivers or existing water supplies. But in deserts, even where such infrastructure might be feasible, it would be very costly.

Researchers at the DLR Institute for Technical Thermodynamics are searching for an elegant solution to this problem in Cologne, in Stuttgart and at the Spanish Plataforma di Solar research centre, and analysing the effectiveness of dry cooling for solar-thermal power stations, with the aim of reducing water consumption by 90 percent. A continuous airflow can be used to cool and condense the steam. The air cooler is composed of hundreds of fins that are heated by the steam and cooled by fan-driven air from outside. The researchers are evaluating the operation and environmental conditions of numerous locations, from Morocco to the United Arab Emirates, for this type of dry-cooling solution.

Although this is an expensive solution and power stations equipped with it cannot achieve the same efficiencies as conventional water-cooled installations, it is an important step towards large-scale solar power generation in desert conditions. DLR researchers estimate that electricity generated with this technology would be three to ten percent more costly, but dry-cooling solutions will be essential to desert power generation projects such as the DESERTEC project.

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.

Image above: Parabolic mirror with absorber pipe. Credit: DLR.

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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

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Emily Bisek
15. November 2010 at 14:32

Hi Jan Oliver,

First, great reporting on energy issues across the spectrum. It's great to see consistent, in depth coverage of these crucial environmental issues. I particularly enjoyed your coverage of the amount of water used for solar energy.

I also wanted to let you know about a water recycling technology that has been around for quite some time. It's Organica Technologies, based out of Budapest, and where I work. Organica is working to reshape the water infrastructure system- change the grid, if you will. But, the technology is also great for campuses, resorts, airports and businesses. The technology cleans the water by combining traditional wastewater treatment technology with a robust ecosystem that cleans the water naturally, efficiently, cheaply and sustainably. Plant roots help house the ecosystem, making a vibrant greenspace that produces no odors. But the best part is that the water can be reused directly on site for cooling towers, irrigation, toilet water and other non-potable (or even potable) uses.

Check it out: www.organicawater.com

This new approach to wastewater management changes the entire system, which has remained relatively stagnant for the past 90 years.

Just wanted to put it on your radar. Keep up the great work!

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