40 MWp Solarpark "Waldpolenz"

40 MW Solarpark "Waldpolenz" is finished. Solarpark Waldpolenz is now the largest german photovoltaic power plant and also the largest thin film PV plant worldwide. Read more.
 

Large ground-mounted power plant was constructed on area of 1 x 2 km and it consists of 550.000 thin-film modules. Annually plant will save about 25.000 tons of CO₂ emissions and it wil produce about 40.000 MWh of electricity. Picture source/copyright juwi GmbH:
 

Sun in old cultures

Stanford SOLAR Center offers comprehensive collection of information - sun in old cultures, ancient observatories, solar art and more. Recommended web site!
 

Electricity from renewables saved 2,8 billion USD in Germany in 2005

Comprehensive report available for free as pdf file was written by specialists from "Deutsches Zentrum für Luft- und Raumfahrt (DLR, Stuttgart)" and "Fraunhofer Institut für System- und Innovationsforschung (ISI, Karlsruhe)".

Highly recommended (german language only).

Read more... or download report as file (337 kB).
 

Recommended books

Photovoltaik
Strom aus Sonnenlicht für Verbundnetz und Inselanlagen

Book covers topics from solar cells to grid connected photovoltaic systems (German language).

Gebäudeintegrierte Photovoltaik. Architektonische Integration der Photovoltaik in die Gebäudehülle

One of the best BIPV related books available (German language).

Designing with Solar Power

The book introduces the holistic design process, PV technologies and integration concepts. With case studies from across the globe, experts in the field explore the potential of this technology, covering various applications (including non-building structures), relevant design tools, reliability, non-technical barriers and markets.

Solární energie

book written by Martin Libra and Vladislav Poulek is available in czech and english language. In many short chapters it gives good introduction into the world of solar energy (photovoltaics). More...

Interesting application examples

Stillwell Avenue Terminal

Coney Island's Stillwell Avenue Terminal is the largest above-ground station in the New York City subway system. Glass and steel structure was designed using an innovative, panelized construction system of semi-transparent photovoltaic modules.

Picture courtesy:
Glaswerke Arnold GmbH&Co.KG.

Fashion & high-tech

Interesting BIPV example is facade of a fashion house "ZARA" in Köln, Germany. "ZARA's" facade is a combination of natural stone, metal and BIPV integrated solar modules. 12 kW photovoltaic system consists of special solar glass and marine blue solar cells.

Picture courtesy Ingo Hagemann Architekturbüro Hagemann....

Tracking concentrators

Bifacial tracking concentrators are often used for water pumping or as electricity sources in rural areas. 2,2 kWp model bifacial solar tracking concentrator designed by professionals is presented on the picture below. More about trackers and concentrators...

Picture courtesy Poulek Solar....

Roof integrated modules

Floriade exhibition hall, the Netherlands. Roof integrated photovoltaic system with transparent modules. Detailed description of Floriade system can you find in Top50 list (pdf description courtesy of Siemens Nederland N.V.). More about bipv applications...

Pictures courtesy Bram Vorster...

"Clean Energy path at St. Moritz" - three different solar power systems around the funicular of Corviglia at Piz Nair, a mountain close to St. Moritz (Switzerland): one at the beginning of the funicular with round about 9 kWp, one parallel to the route with about 18 kWp and the third on the peak, more than 3,000 meters above sea level, with 14 kWp.

More...

Picture courtesy:
SunTechnics GmbH
 

Solar Generation report

Solar Generation V - Greenpeace and EPIA are joining forces for the fifth time to publish a report on PV solar electricity: Solar Generation V. Apart from providing an overview of the current worldwide status of PV in terms of policy, technology and economics, Solar Generation contains credible scenarios which prove once again that PV is clearly on the way to becoming a well-established energy source in the coming decades; EPIA, Greenpeace, September 2008 (6000 kB).

Interesting milestones

170 years ago A physical phenomenon allowing light-electricity conversion - photovoltaic effect, was discovered in 1839 by the French physicist Alexandre Edmond Becquerel. Experimenting with metal electrodes and electrolyte he discovered that conductance rises with illumination.
50 years ago In 1959, Hoffman Electronics introduced commercially available solar cells with 10 % efficiency.
10 years ago In 1999 large-scale BIPV system was connected to the grid in Herne, Germany.

More...
 

About web site

pvresources.com is an independent web site related to photovoltaic technnologies and applications. It was developed as non-commercial helpful information to serve teachers, students and others interested in photovoltaics. In the web site you will find many interesting information on photovoltaic technologies, systems, applications etc. In case you miss any information, I have provided various interesting links where you can look for information you want.

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Jobs & recruiting in solar industry

PVPEOPLE.net - is a contingency and retained recruiting firm specializing in the photovoltaic (PV) industry. We deliver top industry talent who has been confidentially located, qualified and reference checked. Key positions in manufacturing and research and development that we work on are process engineers, design engineers, materials and research scientists, engineering and operations managers, and Lean-Sigma/quality assurance engineers.

Other job opportunities:

Photon Magazine

RenComp

Architectural highlights

Sound protection wall located in Vienna, Austria. Area 193 m², special soundprotection transparent modules with polycrystalline solar cells used. 54 modules with peak power of 15,4 kW installed (picture courtesy Ertex Solar GmbH). More...

World's largest photovoltaic module with rated power 1500 W was presented on Intersolar fair in June 2005. Module is produced by austrian company Ertex Solar GmbH. Glass-glass laminate module is suitable for facade integration or large sunspaces for example (picture courtesy Ertex Solar GmbH).

REN21 Renewables Global Status Report

The renewable energy industry is stepping up its meteoric rise into the mainstream of the energy sector, according to the REN21 Renewables 2007 Global Status Report.

GUNTHER Portfolio

The GUNTHER Portfolio offers short and interesting overviews about PV technologies, companies, industry developments etc.

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Translation services

Translation services for photovoltaics (spanish, dutch and german language) and simultaneously, consecutively and bilaterally interpretation (negotiations, conferences, guided tours, interviews, etc.

More...

New map shows solar electricity potential of European regions

A new map published by the European Commission shows the photovoltaic solar energy potential of different parts of Europe. Photovoltaic Solar Cells convert sunlight directly into electricity. In addition the interactive on-line Photovoltaic Geographical Information System (PVGIS), developed by the Commission's in-house scientific service, DG Joint Research Centre, allows users to estimate solar energy performance at any given location in Europe. The information in the map shows that an identical solar system will generate twice as much energy in sunny areas of Europe, such as Malta and Southern Spain, than in areas such as Scotland or Northern Scandinavia. These tools are invaluable as the EU seeks to increase the share of renewable energies in its consumption to 20% in 2020.

Map can be downloaded from PVGIS (PVGIS - Geographical Assessment of Solar Energy Resource and Photovoltaic Technology) web site.

PVGIS - Geographical Assessment of Solar Energy Resource and Photovoltaic Technology

with its continuous improvement and updates PVGIS (Photovoltaic Geographical Information System) web site is one of the best solar radiation resources for estimation of PV potential in Europe and Africa available on-line.

Source: PVGIS © European Communities, 2001-2007.

SOL4 - BIPV systems and passive buildings

SOL4 is an exemplary pilot project in a new semi-urban district for the sustainable construction of a working and living environment. The building complex serves as a business and training centre, as well as a centre of competence for advanced standards in ecological development, construction and workplace design. It is currently the largest passive solar office building in Austria. The skills and experience from a broad range of the project partners and associates were brought together in a common infrastructure and seminar programme for tenants. The resulting living and working environment includes relax areas and other social spaces. The technologies and design objectives implemented in the project sought to maximise "green" surfaces (e.g., green roof systems, open infiltration surfaces, etc.). Special attention was paid to using the latest developments of environmentally friendly construction materials as extensively as possible. The facility's energy management system optimises ventilation and air conditioning by means of a closed-loop heat distribution circuit with ground-coupled and ventilation heat exchangers. Passive cooling is enabled by concrete core activation in the panels of the roof construction. The grid-tied photovoltaic system provides electricity to cover the remaining energy demands of the mechanical systems. Finally, SOL4's overall ecological performance is being monitored and continually analysed with total quality assessment methods.

More...

SOL4 office building. Picture photo Thomas Kirschner, courtesy SOL4
 

Large-scale photovoltaic power plants

Detailed overwiev about PV power installed (only large scale PV power plants considered) in last ten years (1997-2007) you may find in "pvresources.com Annual Report 2007 available as pdf file


Brief descriptions and some images of world's largest photovoltaic plants can you find if you follow the link. For each plant basic data is included - peak power, country, location, year of construction, GHG emission reduction data etc - if available of course. Pictures of some plants listed are also included.

Largest PV power plants at the moment are:
Huerta Solar Olmedilla de Alarcon (Spain)
Parque Solar Puertollano (Spain)
Moura PV plant (Portugal)
Solarpark Waldpolenz (Germany)
Huerta Solar Arnedo (Spain)
Osa de la Vega (Spain, under construction)
Parque Solar La Magascona & La Magasquila
Merida (Spain)
Parque Solar Fuente Alamo (Spain)
SinAn (Korea)
Huerta Solar Lucainena de las Torres (Spain)
Parque Fotovoltaico Abertura Solar (Spain)...

 

Aznalcollar, photovoltaic power plants with 17 MW peak power constructed by different companies
Picture courtesy: Suravia S.A.
 

In 2008 first large scale PV plants were put into service in Greece.
 

100 kW Olympic power plant, located in Pieria, Greece. Picture courtesy Compa Solar
 

Lucainena de Las Torres (Almeria). 23,2 MW plant completed in summer 2008. Picture courtesy MEPSOLAR AG
 

Huerta Solar Benahadux (Almeria). 10,6 MW plant completed in summer 2008, air photo. Picture courtesy esTCI S.L.



Huerta Solar Benahadux (Almeria). 10,6 MW plant completed in summer 2008. Picture courtesy esTCI S.L.
 

Maccaferri Industrial Group, one of the largest roof mounted systems in Italy put into service in 2008. Picture courtesy Mitsubishi Electric
 

U.S. Army site, Fort Carson, CO. 2 MW plant completed in December 2007. Picture courtesy SunTechnics
 

Solarpark Lobosillo. Picture courtesy Ecostream
 

It is almost impossible to control fast increase of installed PV power. Till end of 2007 10 MW of world's largest thin-film project was connected to the public grid (40 MW plant in Brandis). At the moment photovoltaic progress is extremly fast in Spain, even in Korea several large (MW range) plants have beeing constructed. As promising european markets Italy, France and eventually Greece should also be considered.

Solarpark "Waldpolenz" (Feb 2008). Picture courtesy juwi GmbH

 

Solarpark "Waldpolenz" (Aug 2007). Picture courtesy juwi GmbH
 

Solarpark "Rote Jahne". Picture courtesy juwi GmbH
 

Largest roof mounted plant connected to the grid in 2006 is roof mounted solar electric plant in Muggensturm (Rastatt, Germany).

Muggensturm, roof mounted solar electric plant. Picture courtesy Tauber Solar Management GmbH
 

In April 2006 large photovoltaic plant with 10 MWp was connected to the public grid in Pocking, Germany. Solarpark Pocking constist of six units with 1,67 MWp each. More than 57000 Shell Solar modules are mounted on aluminum contruction which is fixed with more than 8000 ground screws. Plant is connected to the 20 kV public grid via six inverter units (4 x 400 MVA MSSS each unit) and six 1.6 MVA/20 kV transformers.

Solarpark Pocking 10 MWp plant. Pictures courtesy Martin Bucher Projektentwicklungen.
 

The most attractive

One of the most attractive european photovoltaic systems is probably Akademie-du-Mont-Cenis in Herne, Germany. Wooden structure covered with glass and transparent photovoltaic modules is unique sollution build on revitalised former coal mine in northern Germany

"Akademie-du-Mont-Cenis", Herne, Germany.
Picture source/copyright:
Flabeg-Solar

The highest located plants

World's highest located grid-connected system is located on Jungfraujoch mountain in Switzerland - 3545 m above the sea level.

In 2005 PV plant Jungfraujoch (effective peak power 1.13 kWp, 3454 m above sea level), which was erected in 1993 by the PV laboratory of the Berne School of Engineering and Information technology, has established a new record for normalised annual energy production in 2005. Despite a line interruption of one day (23.8.2005) in the valley, in 2005 1537 kWh/kWp were produced with a winter energy fraction of 48.5%. Thus the old record dating from 1997 (1504 kWh/kWp) was trespassed considerably. Without the line interruption, in 2005 the production would have been even 1540 kWh/kWp. In the average of 1993 to 2005, PV plant Jungfraujoch has produced 1407 kWh/kWp with a winter energy fraction of 46.3%.

You may find more details about the plant on the page where world's highest located grid-connected system are described, or on the web site of PV-Labor der Hochschule für Technik und Informatik (HTI) - Berner Fachhochschule.

Picture source/copyright:
PV-Labor der Hochschule für Technik und Informatik - Berner Fachhochschule