Feed-In Tariff Reductions Mark Transition Phase for Europe’s Photovoltaic Markets

The period from 2010 to 2012 is shaping up to be one of significant transformation for the Europe photovoltaic industry as it confronts regulatory incentive revisions, expanding market development opportunities and scaling competition from better financed and more robust power players. Europe PV markets are forecasted to add as much as 15.5 GW from 2010 to 2012 at an average of 5 GW per year. In the longer term, the PV sector in Europe is expected to maintain its growth trajectory from an expected 6.3 GW in 2010 toward 101 GW of installed capacity by 2025, according to a new IHS Emerging Energy Research market study: Europe Solar PV Markets and Strategies: 2010-2025.

"In domino-like fashion, Europe's governments are revising their feed-in tariff schemes and permitting procedures in 2010 to keep pace with PV's rapid technology and cost advances," according to IHS Research Director Reese Tisdale, one of the study's authors. "Feed-in tariffs have been instrumental in getting the Europe PV sector off the ground to date. These schemes are evolving rapidly in their designs to shape both the size and content of the market going forward."

Considered the epicenter of the global PV industry, the German PV market faces significant changes in coming months due to proposed revisions to the feed-in tariffs expected to be enacted by the end of 2010. As a result, German PV development is surging ahead of the proposed tariff reductions. While Germany is among the most cost-competitive markets in Europe, reduced feed-in tariff rates will force players to further reduce system costs. Other markets such as Italy, Spain, and the Czech Republic are poised to follow suit with expansive tariff revisions planned in 2010. Despite tariff revisions, Germany will continue to dominate global PV build-out, and continued development in Italy, France, and Belgium will be also pivotal in driving the industry forward through scale, technology improvements, and deeper experience for developers, according to Tisdale.

"Europe is no longer a one-market PV industry. With development focused almost entirely on Germany several years ago, the Europe PV market has now diversified to five or six active countries-ultimately to stabilize the market and dampen risk," says Tisdale.

Scaling PV activity in European markets outside of Germany has propelled a new group of utilities and power players into the industry forefront. Leading utilities and renewable players Electricité de France, and Enel are at the forefront of large-scale PV deployment, particularly in France and Italy, leveraging their renewables success and experience to position for broader international competition.

As competition increases in the downstream development segment, a growing number of international suppliers are challenging the more entrenched European companies for market share. Leading this charge has been the rising presence of lower-cost Asian manufacturers. Furthermore, the recent oversupply of the global PV module market, technology and manufacturing improvements, and economies of scale has led to a dramatic reduction in solar PV system costs in 2009 and 2010. Adding to this positive cost trend, the increased positions of larger industrial players such as Siemens, ABB and GE are expected to have an additional impact on the PV sector.

"Over the past 24 months, the makeup of the PV market has shifted dramatically with the growing presence of Asian suppliers squeezing traditional European suppliers," added Tisdale. "At the heart of this change are Chinese companies, led by Suntech, Yingli, Trina, SolarFun and Canadian Solar, who are gaining market share through low-cost modules." Through the first quarter of 2010, eight of Europe's top 15 module suppliers in Europe are Asia-based highlighting a shift toward a more global supply chain from the more entrenched German suppliers that have been so successful in the past, according to the study.

Released in May 2010, this 254-page study analyzes the shifting Europe PV market landscape, assessing the factors pushing solar PV deployment in Europe, identifies solar PV development opportunities, and evaluates the strategies of developers, system integrators and utilities.



To be effective Solar has to get down to capital costs of about 10 cents a watt (to account for the intermittent nature of the source plus the cost of storage). Maybe in another 10 or 50 years.

Until then it is just a transfer of funds from the productive economy. i.e. every one but the suppliers gets poorer to make the suppliers richer.

Currently you need fossil fuel hot backup to make solar work. i.e solar at $1 a peak watt ($3 a watt capital for actual production plus $1 a watt for fossil fuel backup) is a money waster.

It would be much cheaper to eliminate the middle man. i.e. forget solar and just build conventional plants which you have to build anyway for backup.

As word of the technical problems of grid integration get out the subsidies will be eliminated. That will mean the 10s of billions in capital costs for solar cell production plants will have been wasted and solar will get a bad name for another 30 years.

And the same goes for wind.

So sad.

If I was you I'd start thinking of how to re-orient your magazine to actual economic realities. And for God's sake - put a LOT more of your effort into storage. The real key to AE.

Paul Mauldin's picture

@ M Simon

IF economics was the sole determinant and IF we could all agree on the data, then there would be no controversy. Solar (or whatever) would be an analytical GO or NO-GO. Unfortunately that's not the case. For example many would argue that carbon emission reduction is worth paying a lot more for energy supply.