Weakening demand claimed its first victim with the bankruptcy of Evergreen Solar. Solar Power Industries in PA closed its doors in May. Spectrawatt Inc., the solar cell manufacturer that was originally spun off from Intel Corp. in 2008, filed for bankruptcy protection in August, followed by Solyndra the next week, according to a report, Opportunities in the Solar Market for Crystalline and Thin Film Solar Cells
, recently published by The Information Network, a market research company.
For many solar firms such as Suntech, SunPower (SPWR), First Solar (FSLR), Trina Solar, JA Solar, and Hanwha
SolarOne (HSOL), the second quarter of 2011 was riddled with high inventories, a lack of transparency in German and Italian policy, impacted share price, ASPs, profit, and revenue. The return of demand in the third quarter has not been as strong as expected.
Revenues and margins for solar module manufacturers have dropped due to falling European demand and pricing
weakness due to overcapacity. An online article at www.Europe-solar.de provides vivid evidence that (1) solar module prices are dropping fast and (2) prices of modules sold by top tier companies (bankable) command selling price between 15% and 35% higher than modules from non-bankable solar manufacturers, according to Robert N. Castellano, president, The Information Network.
The term “Bankable” solar products is open for debate, but is a reality. According to Suntech’s analyst day presentation a few months ago:
- Only 9.5GW of an estimated world’s 27GW capacity is bankable. Suntech (STP) includes itself in the bankable category along with JA Solar (JASO), Trina Solar (TSL), and Yingli Green Energy (YGE).
- Another 10.2GW are classified as “low-cost bankable” which may include many low cost second tier producers in Asia .
- The remaining 7.3GW are pegged as simply “unbankable.”
According to this thesis, there really isn’t an overcapacity of solar cells in the solar industry, just an overcapacity of “unbankable” and “low-cost bankable” vendors.
Suntech thesis is branding and thus bankability will be the key differential among industry players. These
top-tier solar manufacturers are able to secure financing in the multi-million dollar range because bankability should insulate higher tier capacity from pricing declines more than lower tier suppliers.
The inventory of solar products has been pushing prices down since second quarter 2011. Total annual capacity
plans by Chinese manufacturers in mid-June were to expand by 40GW in 2011. However, global demand for solar cells in 2011 might only be around 15GW, hence a further oversupply is very likely if the announced expansion becomes a reality.
Even though the top tier Chinese companies have led the Chinese to win the solar war, they continue to work on
methods to reduce overall non-silicon costs. Mark Kingsley, Chief Commercial Officer of Trina Solar recently noted that the company was striving to reduce costs by lower consumables, material supply chain optimization, technology driven cell efficiency improvements, and increasing manufacturing efficiency.
“In the big picture cost reductions, we are driven by a balance of technology-driven efficiency gains, more efficient materials used, and solutions designed to reduce installed systems cost. Specifically, as we further develop innovative offerings to lower the cost of solar, both within and outside the module, we will continue our
rigorous evaluation of new and second supplier technologies,” Kingsley added.
“Shooting at a moving target (Chinese innovations) is difficult but shooting while the ducks fly (survival mode) is critical,” noted Dr. Robert Castellano, President of The Information Network. “Although the secondary equipment market may soon be flooded with used equipment as other solar companies go out of business.”
"The next wave of cost-per-watt reduction in the solar PV industry will be achieved through major changes in
cell technology and manufacturing sophistication to simultaneously improve efficiency and factory output," said Mark Pinto, executive vice president and general manager of Applied Material's (AMAT) Energy and Environmental Solutions Group.
Applied Materials has announced its new Applied Baccini Pegaso solar PV cell manufacturing platform that
fabricates electrical circuits on both sides of a solar cell - a process that includes multiple screen-printed metallization steps, metrology and sorting.
Advancing in cell manufacturing, the breakthrough Pegaso system delivers high yield and cell output - over 20 million solar cells per year - at the lowest overall cost-per-watt of any cell manufacturing system available.
Another way to reduce costs and remain competitive is to develop technologies to increase efficiency. If we look
at the chart below from NREL (National Renewable Energy Laboratory), except for concentrator cells and emerging technologies, the increase in efficiency can take 10 years to improve just 1%.
By replacing legacy diffusion-doping processes with ion implantation, and implementing Varian Semiconductor Equipment Associates' (VSEA) proprietary Precision Patterned Implant (PPI) technology, Solion enables crystalline silicon PV cell manufacturers to achieve a one percent p-type efficiency gain, simplify manufacturing by eliminating yield killing steps, and implement a roadmap for continuous $/Watt improvement.
Privately held SolarPA (www.solarpa-inc.com) has shown that by applying a coating of its nanomaterial-based NanoCoat over the surface of a completed cell, efficiency increases of 1.78% can be achieved. The process is non-disruptive to the production line – the coating is done at the end of the manufacturing line – and cost is cents per watt. Not only that, but increasing the efficiency of cells manufactured with sub-par performance and typically scrapped – as much as 20% of production – can make these cells usable.
DuPont’s (DD) recently purchased Innovalight product uses Silicon Ink in a predetermined pattern on top of the
bare silicon wafer to form a high efficiency selective emitter.
Natcore (NTX.V) uses a novel method of replacing the standard SiN antireflective coating (ARC) deposited in
the gaseous state with their ARC deposited as a liquid. There are numerous solutions now.