Risø WindScanner part of EU joint research infrastructures

“Before going to start..  let me thank  Risoe, EU and ESFRI on behalf of wind energy sector  for bringing another new technology”

Read more here about WindScanner.dk

A single WindScanner can produce detailed maps of wind conditions at a wind farm covering several square kilometres. Developed by Risø DTU, the WindScanner consists of high-tech laser systems. It is a sophisticated research facility for studying wind and turbulence in connection with leading-edge research into wind energy, and can be packed into an ordinary van and taken wherever it is needed. The Risø WindScanner will now, in collaboration with six European Energy Research Alliance (EERA) partners, be made available to EU sustainable energy research laboratories and companies via the European research infrastructures.

A research infrastructure of advanced research laboratories and modern research equipment is a prerequisite for continuing to generate research of the highest international quality within the EU. The EU seeks to retain and recruit the best students and researchers, and modern research infrastructures are therefore also an important competitive factor. Finally, the research infrastructures contribute positively to the EU’s capacity for innovation and to the transfer of knowledge and technology between the research and business communities.

A top-class European research infrastructure is therefore high on the EU’s agenda, and the European Strategy Forum on Research Infrastructures (ESFRI) has been created to coordinate this task. In this context, the EU is drawing up a strategic roadmap for the future European research infrastructures. The ESFRI roadmap describes the need for joint European research infrastructures over the next 10-20 years. Following the EU’s 2009 call for proposals within the area of sustainable energy, Risø’s new WindScanner has just been included in ESFRI’s roadmap 2010.

“Risø DTU has been leading the way in the development of wind scanners, and we are pleased that the Danish test facility will now become part of the future joint European research infrastructures, so our knowledge and experience can be disseminated to other EU countries. We also trust the process to strengthen our own competencies within wind energy research as we intensify our dialogue with other wind energy researchers and companies,” says Henrik Bindslev, Director at Risø DTU.

3D mapping of wind conditions by means of laser instruments

The Risø WindScanner is a system of special laser-based wind measuring devices, so-called Lidars (Light Detection and Ranging). A Lidar system transmits laser beams into the air, where they hit particles and are reflected back to the Lidar, where the reflections are analysed to provide information about wind conditions in the atmosphere.

Lidars are also used to measure the so-called boundary layer height, i.e. to determine the vertical extent of the boundary layer in the atmosphere at a given time, a factor that affects wind turbine operation. Lidars are also used to determine the instantaneous wind speed and direction and turbulence remotely over terrain, e.g. in front of, within, and in the wakes of the wind turbines, which today have rotor planes that extend to extreme heights in the atmosphere. A single wind scanner consists of three such wind Lidar systems operated in concert, making it possible to create three-dimensional maps of local wind conditions and wind resources.

This type of remote sensing is becoming more and more popular as it results in extremely detailed mapping. This means that wind energy potential can be exploited more efficiently. Moreover, wind turbine manufacturers can gain significant information about the specific wind conditions to which wind turbines are exposed on site, allowing them to size and dimension turbines to match on-site wind conditions. Prior to the advent of the WindScanner, researchers had to install several meteorological masts to obtain the same information about local wind conditions.

Risø WindScanner.
Photo: Carsten Brodersen, IPU.

The Risø WindScanner can also be deployed as a mobile emergency unit to sites where wind turbines are repeatedly experiencing problems to establish whether the difficulties might be due to specific local wind conditions.

The Risø WindScanner may also benefit air traffic, as it can measure wind shear and turbulence along runways, making landing safer because sudden turbulence and extreme wind shear which might knock a plane off course can be intercepted by the WindScanner, and pilots can be warned.

Source : RISO

To read and know more about WindScanner.dk  visit here

SOFC micro CHP plants to be climate-friendly power stations in homes

The generation of electricity and heat with no pollution and with considerably less emission of the greenhouse gas CO₂ sounds too good to be true. However, it is possible with the so-called SOFC fuel cells, which Risø has been conducting research into for over 20 years. The technology is now on its way to reach Danish and international companies including consumers.

 

An SOFC fuel cell produces electricity and heat with a very high efficiency. That means less carbon emissions for each kW produced. Furthermore, the production of electricity happens with nearly no emissions of pollutants such as nitrogen and sulphur oxides. Thus, SOFC fuel cells are a strong card in the future climate-friendly energy supply. SOFC fuel cells are flat and thin as a piece of paper, providing a voltage of approx. 1 volt. They are put together in stacks to achieve the desired voltage and wattage.

The results from the research at Risø DTU are known internationally and have spread in ever-widening circles. Risø DTU entered into a long-term strategic cooperation agreement with Topsoe Fuel Cell, which developed fuel cell stacks into a commercial stage and is now marketing them under the name Topsoe PowerCores™. Topsoe Fuel Cell has subsequently entered into a long-term cooperation agreement with the Danish company Dantherm Power, which is selling small CHP plants, among other things. So long-term research conducted in Risø DTU’s laboratories is now turning into concrete revolutionary products to be used in the supply of power and heat.

 

To know more  visit risoe

 

Vestas receives order for 77 MW in Argentina

Vestas has received a firm and unconditional order for 43 V90-1.8 MW wind       
turbines for Argentina.                                                         
                                                                                
Additional information about the project:                                       

--------------------------------------------------------------------------------
| Customer:                  | Emgasud S.A., Argentina                         |
--------------------------------------------------------------------------------
| Project name:              | Rawson I Wind Farm & Rawson II Wind Farm.       |
--------------------------------------------------------------------------------
| Location/Country:          | The Chubut Province, Argentina.                 |
--------------------------------------------------------------------------------
| Number of MW:              | 77.4 MW.                                        |
--------------------------------------------------------------------------------
| Number of turbines/turbine | 43 x V90-1.8 MW wind turbines.                  |
| type(s):                   |                                                 |
--------------------------------------------------------------------------------
--------------------------------------------------------------------------------
| Time of delivery:          | Delivery of the turbines is expected to start   |
|                            | in the first half of 2011 and to be completed   |
|                            | in January 2012.                                |
--------------------------------------------------------------------------------


Source : Vestas 

Risø DTU is going to put new test method for solar cells into production

Risø DTU is going to put a newly developed test platform for polymer solar cells into production. The test platform will be transformed from a prototype into production ready 0-Series in collaboration with the Zealandic company ‘LS Control’. The two have met in Risø DTU business network.

These years, many universities and companies are working to create efficient and cheap polymer solar cells, so-called third generation solar cells. This means a shift from few handmade laboratory cells to very large series, produced by machine. It requires lots of tests. However, existing test methods are slow and cumbersome. Therefore, scientists from the Solar Energy Programme at Risø DTU have now developed a faster and better test method.

“For a long time, we have been having problems with the slow test phases in our own production of polymer solar cells. So Frederik C. Krebs, Professor, decided to develop a comprehensive test solution that was faster. He finally found a method that was much faster but also easier to use,” explains Torben Damgaard Nielsen, Innovation and Business Developer at Risø DTU.

Because of these promising results, Risø DTU has entered into cooperation with the Zealandic company ‘LS Control’ who is to develop the prototype into a commercial product.

“Risø DTU has given us the task of developing a 0-series. In practice, this means that we use the prototype to develop solutions, making the prototype ready for production. At this point, we are obviously keen to enter the scene as producer, but it is up to Risø DTU, “says Per Nielsen, Manager of LS Control.

Cooperation between LS Control and Risø DTU began when LS Control took part in one of Risø’s business networks, the so-called 3×8 network, financed by funds from Region Zealand. Risø scientists and interested businesses met in the network to discuss various issues, in this case the possibilities of becoming a supplier to the research into green technologies. Risø DTU has a special interest in developing the test platform into a product.

“There is the economic aspect of selling the test platform which is interesting, because even as part of a research programme, you still need to provide commercial revenues. Another issue to be addressed is whether we can make our mark with a licensed product both in relation to research and commercially when it comes to the development of third generation polymer solar cells.” says Torben Damgaard Nielsen.

The manufacturing of polymer solar cells at Risø

Risø DTU is dedicated to business development within the research environment which allows business developers and scientists to commercialise great ideas together.

 

Source : Riso

For more details visit Riso

Vestas receives 90 MW order in Michigan, USA

Vestas has received a firm and unconditional order for 50 V100-1.8 MW wind      
turbines for the USA.   


Additional information about the project:                                       

--------------------------------------------------------------------------------
| Customer:                  | John Deere Wind Energy                          |
--------------------------------------------------------------------------------
| Project name:              | Michigan Wind II                                |
--------------------------------------------------------------------------------
| Location/Country:          | Minden City, Michigan, USA                      |
--------------------------------------------------------------------------------
| Number of MW:              | 90 MW                                           |
--------------------------------------------------------------------------------
| Number of turbines/turbine | 50 x V100-1.8 MW wind turbines                  |
| type(s):                   |                                                 |
--------------------------------------------------------------------------------
| Contract type:	           | Supply and installation                         |
--------------------------------------------------------------------------------
| Contract scope:            | Delivery and commissioning of the wind          |
|                            | turbines, a                                     |
|                            | VestasOnline® Business SCADA system as well as  |
|                            | a 10-year service and maintenance agreement.    |
--------------------------------------------------------------------------------
| Time of delivery:          | Delivery is scheduled for mid-2011 and          |
|                            | commissioning is expected by the end of 2011.   |
--------------------------------------------------------------------------------

Source : Vestas