Canadian Solar BIPV modules use double low iron tempered glass with solar cells laminated in between, making them ideal for roofs, skylights and/or facades. The modules use double low iron tempered glass with solar cells laminated in between, this means that the fundamental ideal of building material to generate electrical power is now a reality. With a 55W-115W/m2 output depending on cell spacing; the cells are made up of crystalline (mono or poly 125mm/ 156mm).
Product Briefing Outline: System Photonics has introduced a commercial-scale BIPV 'ROOF' collection system that is designed for ventilated façades. The product line uses ceramic materials combined with next-generation crystalline silicon photovoltaic cells to allow for flexibility in design without compromising functionality. These BIPV modules also take advantage of DuPont PV5300 Series encapsulant sheets made of clear, tough ionomer.
Many industries worldwide are paying more attention to their energy supply, moving slowly but surely down renewable avenues. One industry some may be surprised to find investing in the green energy sector is the multi-billion sports industry. Over the last couple of months, more and more sports companies have announced the use of renewable, and in particular solar PV, installations. Among the most recent to announce these initiatives are the UK's Sheffield Wednesday, Barcelona's RCD Espanyol football club and Italy's Bentegodi Stadium in Verona.
Not all the news from First Solar’s second-quarter conference call was good. Granted, the CdTe thin film leader impressed again with its continued benchmark performance on productivity, lowest cost per watt and revenue generation, however the sombre note regarded pricing pressure seen from the traditional c-Si module manufacturers.
Cabot Consultants, the national search firm with practice areas in technology, clean tech, and renewable energy, has announced its first annual list of "Women to Watch in Solar Energy."
Take any market research firm’s data on end-user demand for solar modules and compare that with manufacturing supply and there is a massive gap to the negative, pushing prices lower from bare wafers to modules. Last week, Q-Cells binned its forecast for revenue for 2009, citing continued lack of demand and falling prices due to the competitive landscape caused by overcapacity.
After a slow start, this year’s PV Industry Forum, the traditional opening conference of Intersolar Week in Munich, finally got going during the last session of the day with a resounding call to action from none other than Q-Cells’ boss, Anton Milner. The conference opened with the usual slides and the usual suspects giving their views of the overall solar market. The obligatory emerging market was given lip service--this time it was India--while the rest of the presentations mostly failed to engage the audience in a meaningful way. Things changed during the afternoon....
News that amorphous thin-film competitors Sunfilm and Sontor are to merge due to the competitive landscape, overcrowded market, and the dominance of First Solar-- both from a capacity and conversion efficiency standpoint--could be the first of many such consolidations, as the solar market stalls because of the global current economic climate.
Mitsubishi Electric Corporation has improved its highest conversion efficiency rate for a 150 x 150 millimeter practical-size multicrystalline silicon photovoltaic (PV) cell by 0.3 points from 18.6 percent to achieve a claimed new world record of 18.9%.
Product Briefing Outline: Reis Robotics has now implemented a newly developed laser soldering procedure for practical use with several customers. Photovoltaics manufacturers are increasingly anxious to fully exploit the automation potential of their production capacity in order to deal with the increasing demands for lower prices. Reis Robotics as system supplier with its subsidiary Reis Lasertec as laser welding specialist have combined skill sets to deliver a laser soldering method for higher quality, shortened cycle times and reductions in manual rework.
