Solar power tower

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Ivanpah Solar Power Facility Online.jpgIvanpah Solar Power Facility (2).jpg
PS10 solar power tower 2.jpg
Concentrating solar power towers:
  • Top: Solar towers of the Ivanpah facility, the world's largest solar thermal power station in the Mojave Desert, southeastern California
  • Middle: PS10, the world's first commercial solar power tower in Andalusia, Spain
  • Bottom: The THEMIS solar power tower in the Eastern Pyrenees, France (left) and the German experimental Jülich tower (right)

The solar power tower, also known as 'central tower' power plants or 'heliostat' power plants or power towers, is a type of solar furnace using a tower to receive the focused sunlight. It uses an array of flat, movable mirrors (called heliostats) to focus the sun's rays upon a collector tower (the target). Concentrated solar thermal is seen as one viable solution for renewable, pollution-free energy.

Early designs used these focused rays to heat water, and used the resulting steam to power a turbine. Newer designs using liquid sodium have been demonstrated, and systems using molten salts (40% potassium nitrate, 60% sodium nitrate) as the working fluids are now in operation. These working fluids have high heat capacity, which can be used to store the energy before using it to boil water to drive turbines. These designs also allow power to be generated when the sun is not shining.


The US National Renewable Energy Laboratory (NREL) has estimated that by 2020 electricity could be produced from power towers for 5.47 cents per kWh.[1] Companies such as ESolar (backed by are continuing development of cheap, low maintenance, mass producible heliostat components that will reduce costs in the near future.[2] ESolar's design uses large numbers of small mirrors (1.14 m²), which reduce costs for installing mounting systems such as concrete, steel, drilling, and cranes.

Improvements in working fluid systems, such as moving from current two tank (hot/cold) designs to single tank thermocline systems with quartzite thermal fillers and oxygen blankets will improve material efficiency and reduce costs further.


File:Solar Two 2003.jpg
The decommissioned Solar Two in California
  • Some Concentrating Solar Power Towers are air-cooled instead of water-cooled, to avoid using limited desert water[3]
  • Flat glass is used instead of the more expensive curved glass[3]
  • Thermal storage to store the heat in molten salt containers to continue producing electricity while the sun is not shining
  • Steam is heated to 500 °C to drive turbines that are coupled to generators which produce electricity
  • Control systems to supervise and control all the plant activity including the heliostat array positions, alarms, other data acquisition and communication.

Generally, installations use from 150 hectares (1,500,000 m2) to 320 hectares (3,200,000 m2).

Commercial applications

Recently, there has been a renewed interest in solar tower power technology, as is evident from the fact that there are several companies involved in planning, designing and building utility size power plants. This is an important step towards the ultimate goal of developing commercially viable plants. There are numerous examples of case studies of applying innovative solutions to solar power.[4]

Examples of heliostat power plants

Power plants Installed
(MW)[clarification needed]
(GWh)[clarification needed]
Country Developer/Owner Completed
Ivanpah Solar Power Facility 600 (U/C) 420 United States BrightSource Energy 2013
Crescent Dunes Solar Energy Project 110 (U/C) 500 United States SolarReserve 2013
PS20 solar power tower 20[5] 44 Spain Abengoa 2009
Gemasolar[6] 17 100 Spain Sener 2011
PS10 solar power tower 11[7] 24 Spain Abengoa 2006
Sierra SunTower 5[8] United States eSolar 2009
Jülich Solar Tower 1.5[9][10] Germany 2008
Greenway CSP Mersin Solar Tower Plant 5[11] Turkey Greenway CSP 2013

Novel applications

File:Pit Power Tower.gif
Pit Power Tower concept in Bingham Canyon mine

The Pit Power Tower[12][13] combines a Solar Power Tower and an Aero-electric Power Tower[14] in a decommissioned open pit mine. Traditional Solar Power Towers are constrained in size by the height of the tower and closer heliostats blocking the line of sight of outer heliostats to the receiver. The use of the pit mine's "stadium seating" helps overcome the blocking constraint.

As Solar Power Towers commonly use steam to drive the turbines, and water tends to be scarce in regions with high solar energy, another advantage of open pits is that they tend to collect water, having been dug below the water table. The Pit Power Tower uses low heat steam to drive the pneumatic tubes in a co-generation system. A third benefit of re-purposing a pit mine for this kind of project is the possibility of reusing mine infrastructure such as roads, buildings and electricity.

See also


External links

Institutional links

Commercial links

es:Central solar de torre central

fr:Tour solaire thermique gl:Central térmica solar he:מגדל שמש ja:太陽熱発電#タワー式太陽熱発電 pt:Usina solar