Can solar panels be recycled?
Silicon solar cells are typically derived from quartz, a mineral made from the two most abundant elements on earth: oxygen and silicon. This quartz must be purified, a process that varies by manufacturer, in order to end up with silicon crystals pure enough for modern solar cells. However, similar to common plastic, pure silicon degrades slightly when recycled. This means that its quality will suffer with each subsequent use of the material.
So, where does this leave us?
As it stands today, there are two common methods for recycling solar panels: mechanical and chemical recycling.
Mechanically Recycling Solar Panels
The more simple form of recycling solar panels, mechanical recycling involves dismantling the solar panel and separately recycling its parts: glass, metal, copper wiring and silicon solar modules.
In recycling facilities, these various materials are crushed into small pieces and broken down into a material similar in consistency to sand. From there, the material is sent through a magnetic separation process that removes and isolates the metals within. These valuable materials can be reused to make glass, roadways, insulation and more.
The most advanced forms of mechanical recycling can recover 99% of raw materials at a pace of one solar panel per 40 seconds. Methods currently in use, such as First Solar’s recycling process, are capable of reusing up to 90% of the semiconductor material and 90% of the glass in its modules. These facilities are still limited, however, and most solar customers don’t have access to them at this point.
Chemically Recycling Solar Panels
Chemical (or thermal) recycling uses chemical treatments and heat to delaminate a solar panel, separate its chemical components and recapture the pure silicon within it. Research in this arena shows promising results, yet efficiency on a large scale still lacks. Additionally, the production and necessary treatment of potentially harmful gases associated with this recycling process still present challenges to its commercial viability.
Solar Panel Reuse & Refurbishment
We usually cite the lifetime of solar panels at 25 years, as most warranties only cover up to that mark. However, the vast majority of solar panels can be used longer than 25 years, though their efficiency suffers over time. As a result, most of the e-waste associated with solar panels comes from old panels that still produce energy, just at a lower level.
This leads to another question: Can solar panels be reused or refurbished? Certainly, this method is the most economical due to how little processing would be required relative to mechanical, chemical and thermal recycling methods.
Not every solar installation will require the best solar panels on the market, so reused, low-efficiency panels do offer solutions for small-scale solar needs, like off-grid systems, solar chargers, lights for street signs and other applications that don’t necessarily require new panels.
But what about the refurbishment of defective or broken panels? Companies like Rinovasol specialize in this type of solar panel refurbishment, extending life cycles through a process of defect analysis, refinishing and recoating with a polymer of their own development. Rinovasol’s process is garnering international attention, and it is shown to extend solar panel lifetimes by about 10 years.
Companies That Will Help You Recycle Your Panels
Though promising methods of solar recycling, refurbishment and re-use are in development, they still exist on a very small scale in the U.S. However, there are companies taking the first steps into this new area of the solar industry and may offer a convenient way for you to sustainably dispose of your solar panels.
With facilities in the U.S., Germany and Malaysia, First Solar’s recycling process achieves high recovery rates (around 90%) and offers a convenient, effective disposal method for your solar PV modules.
We Recycle Solar
We Recycle Solar provides comprehensive solutions for manufacturers, installers and solar contractors needing large-scale solar panel disposal and PV recycling. The company’s approach allows home and business owners to cash in on any residual value of damaged panels while complying with regulations regarding panel removal.
RecyclePV offers a simple process for removing and disposing of unwanted solar panels. Achieving a recovery rate of 90%, RecyclePV shows a great deal of promise for solar recycling. If it can ramp up its scale in the U.S. solar market, RecyclePV may be a leading solution to solar waste management problems.
The Future of Solar Recycling: A Closed Loop?
Have you ever heard the term “circular economy?” Well, solar panel recycling offers the perfect example to demonstrate its feasibility and benefits.
A circular economy is a system of closed loops in which raw materials, components and products lose as little value as possible. Though still in the early stages, top solar companies like SunPower are leading the charge toward a circular solar economy, designing solar panels that can be perpetually recycled. This would close the loop on the materials involved in the manufacturing process, lowering the costs and impact of solar power systems.
It should be noted that SunPower manufactures the most efficient solar panelson the market, demonstrating that sustainability (when baked into the process) has little to no effect on the price or quality of solar products.
SunPower, First Solar and other leading companies show us that closing the loop on the solar economy is possible (dare I say practical, too?). So what’s stopping the rest of the nation’s top solar companies from doing the same?
Sadly, the U.S. still lags far behind in its clean energy policies. The federal government has zero regulations in place requiring solar manufacturers to design closed-loop products, has zero laws barring the disposal of solar panels in landfills and offers zero support for solar recycling programs, despite its ambitious goals for solar development nationwide.
The government can’t be the sole driver of change, however. With any luck, our nation’s solar manufacturers will follow SunPower’s lead and realize the benefits of developing technologies that lessen solar’s growing impact.
Karsten Neumeister is a writer and renewable energy specialist with a background in writing and the humanities. Before joining EcoWatch, Karsten worked in the energy sector of New Orleans, focusing on renewable energy policy and technology. A lover of music and the outdoors, Karsten might be found rock climbing, canoeing or writing songs when away from the workplace.
Orignally Published by EcoWatch