IK4-TEKNIKER will be presenting its most recent developments in the field of Concentrating Solar Power; the common denominator is about increasing the output of the plants and cutting their operating costs.

Only two top companies worldwide currently have the capacity to manufacture the absorber tubes in plants of this type using in-house technology designed to transform solar power

Nobody is casting doubt any more on the huge future potential of solar power, but the current technology is facing difficulties like efficiency, which remains limited when it comes to transforming sunlight into electricity. That is why, rather than focussing on the more extended formula of photovoltaic panels, researchers are already working on other technologies that will allow the juice to be "squeezed" out of solar energy better.

One of these new technologies is solar concentration which involves focussing reflected sunlight onto a series of mirrors in a very small area until a very high temperature is reached. The energy is stored in the form of heat to be later transformed into electricity. This storage capacity is what turns it into one of the renewable energy technologies that is gaining more appeal for the power market. However, the mass dissemination of this technology still depends on cutting costs and increasing efficiency.

In order to increase the generating capacity of this technology, the European Commission through its 7th Framework Programme has launched the HITECO project; it has a budget in excess of 5 million euros, and the Basque R&D centre IK4-TEKNIKER is collaborating in it, along with another 9 R&D centres and companies in Spain, Switzerland, Germany and the Czech Republic.

The project, led by the company Aries Ingeniería y Sistemas, also has the collaboration of the Industry Association of Navarre, the Cidaut Foundation, the Institute of Materials Science in Madrid, the Swiss centre ETH, the Czech company Kavalierglass and the German companies Witzenmann, Trelleborg and Pfeiffer.

Concentrated light

Solar concentration technology functions differently from the classical solar energy of photovoltaic panels. In plants of this type the sun is reflected onto huge mirrors that reflect the radiation onto a central tube. The fluid circulating inside the tube is heated to several hundred degrees centigrade and is pumped to a plant where the heat is transformed into electrical power by means of turbines.

This technology is still a long way from reaching maturity and to date there are only two top companies in the world with the capacity to set up plants of this type. The HITECO project, which is highly complex, is seeking to improve efficiency in each of the elements in a solar concentration plant, from the coating of the tubes, to thermal insulation and including vacuum control and joints. There are 10 work packages in all with IK4-TEKNIKER involved in a third of all the research areas.

Interdepartmental co-operation

Given the sheer size of the project, a number of departments in the R&D centre (for example, mechatronics and electronics) are involved in the various work packages alongside experts in PVD (Physical Vapour Deposition), a technique for applying materials to provide the surfaces of materials with specific properties.

One of the main aims of the project is to increase the temperature of the heat transfer fluid, currently at 400 degrees centigrade. By means of various innovations, including a coating that allows that greatest possible amount of solar radiation to be absorbed and which minimizes heat losses, the HITECO project is seeking to reach a temperature of 600 degrees.

For this purpose, IK4-TEKNIKER has designed a coating with different layers of superimposed metal oxides, a highly reflective metal and an absorbent cermet, which allows the nearby infrared solar spectrum as well as the visible one to be captured.

What is more, the centre has also built a machine to be able to deposit selective coatings onto 4-metre long tubes, a key innovation in the standardization of the technology developed and its scaling for reliable mass production.

The system has a 12-metre long vacuum chamber and 4 evaporators. The control of the thickness of the layers is crucial in these coatings. The system developed by IK4-TEKNIKER can achieve homogeneity of 5 nanometres all over the tube perimeter and throughout the 4 metres of its length.

In order to put the innovations developed in the HITECO project into practice, the consortium members are building a pilot plant for which IK4-TEKNIKER will be providing 100 metres of tubes equipped with the advanced surface coating.

The results of the project will help to lower the manufacturing costs and maintenance of solar plants of this type. The efficiency of the energy transformation process is also expected to be increased by raising the working temperature of the collectors. All this means that it will be possible to multiply the number of solar plants and that the consumption of this source of renewable energy will become widespread.

IK4-TEKNIKER will for another year be participating in the SolarPACES 2013 conference focussing on the development and marketing of solar energy concentrating systems. This conference is being organised by the International Energy Agency to help to come up with solutions for energy problems worldwide.

 

In the wake of the success of the last edition in September 2012 and which brought together over 1,000 experts including researchers, scientists and business people from all over the world, Las Vegas (United States) will be hosting the 19th edition of this conference from 17 to 20 September 2013; there will be sessions and meetings on the latest developments in technologies for concentrating solar energy and for chemical energy systems.

At the conference IK4-TEKNIKER’s Renewable Energies area will be presenting some of its most recent developments in the field of thermoelectric solar energy; the common denominator is about increasing the output of the plants and cutting their operating costs. At the end of the day, it is about cutting costs in generating electricity.

The Basque R&D centre will be presenting the following papers:

"Fast, compact and precise mirror facet measurement based on the autocollimation principle", which presents a new system currently in the patent application phase for the automatic geometric verification of concentrator mirrors.

"Improvement of solar heat transfer fluid behaviour at low temperature by dispersing encapsulated and non-encapsulated phase change materials (PCM)", which will be describing the results obtained in a new generation of heat transfer fluids with fewer problems of freezing and/or degradation at high temperatures.

"MAINBOT – Mobile robots for inspection and maintenance in extensive industrial plants", which will be presenting the development of robots to inspect solar fields, which is part of the MAINBOT European project.

"A new high sensitivity and low-cost solution for the measurement of reflectivity loss due to dust deposition on solar collectors", which will be displaying a development made in collaboration with the company Microelectrónica MASER: a low-cost system for monitoring, in real time, the level of dirt present in large solar fields.

And "Selective Coatings for New Concepts of Parabolic Trough Collectors", which will be looking at the developments made in new parabolic trough collector receptors.

It will also be presenting a paper entitled "EASY: An innovative design for cost-effective heliostats/solar fields" in which IK4-TEKNIKER and the National Centre for Renewable Energies (CENER) have been working together to develop a new concept of heliostat that could cut the costs of solar fields.

IK4-TEKNIKER and thermoelectric solar energy

Over the last 8 years IK4-TEKNIKER has been looking into the development of thermoelectric solar technology to design new components, to develop and analyse heat transfer fluids and means of storage, and to come up with optical surfaces with enhanced features, among other things.

It is also working to improve plant operation and maintenance, to cut the cost of solar concentrator technology.

The developments scheduled to be presented at the conference reflect some of the achievements it has made over the last year in these fields.