UNSW Sydney engineers have developed a new way of recycling solar panels, that can recover silver at high efficiency.
The process, which has been patented, has been created to sort the component materials quickly for photovoltaic panels, as a key step of efficient PV recycling.
Recycling solar panels thoroughly has proven difficult up to now because the individual parts, such as glass, silicon, metals, wiring and plastic, are integrated in such a way that makes them hard to separate.
To be reused, solar panel components need to be carefully separated to avoid contamination with other materials. Manufacturers will only reuse materials that have a high purity – which has proven difficult to achieve.
That means the vast majority of solar panels could end up in landfill, rather than being recycled to the benefit of the environment.
A team from the ProMO lab led by Professor Yansong Shen has announced a new process which offers an effective separation of 99 per cent of PV cell particles.
PV panels usually last for about 20 or 25 years. Prof. Shen said that given the growth in domestic solar power since the 1990s there is a pressing problem to deal with those first generation of panels that are coming to their end-of-life.
“We want to reuse and recycle those panels, but there is limited research and technology to allow us to do so effectively and prevent them from just ending up in landfill,” Shen said.
“Putting solar panels into landfill is a big issue because there are several harmful metals in the panels that can pollute the soil and water. So for environmental reasons we also need to find a better way to recycle the panels.
“At the same time, the end-of-life panel is a source of many valuable metals like silver if they can be properly recycled.”
According to estimates from the International Renewable Energy Agency, the cumulative PV waste volume on a global scale will reach up to eight million tonnes by 2030. And that figure soars to potentially up to 78 million tonnes of waste by 2050 as successive generations of solar panels installed at the start of the century come to their end-of-life.
The ProMO research team at UNSW calculate that between 5-50 million kilograms of silver could potentially be recycled from the cumulative waste by 2050 using their process, given that the equivalent of about 0.64 kilograms of silver per tonne of PV waste has been recovered in tests.
Sieving aids
Shen’s team has been working for nearly three years on developing the new processes, funded by federal Australian Renewable Energy Agency (ARENA) and New South Wales Environment Protection Authority (NSW EPA) grants, which integrate conventional methods with a highly abrasive separation system using the addition of sieving aids.
The first existing step to recycle PV panels involves the removal of large components such as the aluminium frame and glass sheets to leave the solar cell.
“The next step is crushing the panel and separation of material inside the solar cell and that is currently one of key bottlenecks for the whole system,” Shen said.
“If we do not have a simple method for high-abrasion separation, then we can’t effectively move on to the third step which is recovering the various material that has been separated and being able to reuse it.
“The key to our new process is the addition of the sieving aids which help to crush the solar cells into smaller particles allowing a better separation of all the components. That makes it much easier to recover important elements such as the silver contained in the solar cells.”
The entire crushing and sieving process, which occurs inside a vibrating container, takes about 5 to 15 minutes to effectively separate 99 per cent of the PV materials.
The team discovered that using stainless-steels balls as a sieving add provided the most optimal solution for the process.
“We spent around three or four months working on that element, also testing with sieving aids made of clay or plastic,” says team member and MPhil candidate Chengsun He.
“We can use different size sieving aids for different stages of the process. The main goal is to ensure that all of the PV cells particles can be crushed by the sieving aids, while the glass and other significant material remains intact at the top.”
Industry collaboration
Once the material has been separated using the new patented process, the team can employ a traditional chemical leaching, as well as precipitation, to extract the specific elements such as pure silica and silver.
In tests, using their process, the researchers were able to extract 99 per cent of silver from a solar cell for potential reuse.
“Our group of 30 researchers is the largest in Australia working on PV recycling technology development, not lifecycle assessment (LCA) only, and probably one of the largest in the world. This patent is just one part of one recycling process for end-of-life solar panels. We are also working on other solutions to the other steps,” Shen said.
“We are working with some industry partners already, but we would like to engage in more industry collaborations to scale this process up and enhance the economic feasibility of the PV recycling process.”
For more information, visit: www.unsw.edu.au
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