Environment

Fast-dissolving bio resin could drive recycling of wind turbine blades

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Wind turbines may be a symbol of the green energy movement, but their expired blades are usually just dumped in landfills
Depositphotos
Cubes of the PECAN resin, which could reportedly be utilized in existing factories for the production of full-size wind turbine blades
Werner Slocum, NREL
Wind turbines may be a symbol of the green energy movement, but their expired blades are usually just dumped in landfills
Depositphotos

Although wind turbines generate electricity via an eco-friendly process, the giant blades of those turbines typically end up in landfills once they wear out. That could change, however, thanks to a new bio-based resin that would allow old blades to be broken down and recycled into new ones.

While designs do vary between manufacturers, most wind turbine blades incorporate a carbon fiber "skeleton" (known as a spar cap), a balsa wood or expanded foam inner core, and a fiberglass shell. In both the carbon fiber and the fiberglass, an epoxy thermoset resin is used to bond the respective fibers together.

Unfortunately, once a blade has reached the end of its operational life – after about 20 years – separating all of those materials from one another for subsequent reuse is very difficult. This is due mainly to the fact that the resin can't easily be broken down, so the carbon and glass fibers can't be retrieved from it.

Although a number of experimental blade-recycling techniques have been put forward, some of those incorporate harsh processes that likely wouldn't be manageable on a commercial scale, while others reduce the quality of the fibers. As a result, old blades are usually just dumped, or are at best ground up and used as a filler in cement.

In an effort to address that problem, scientists from the US Department of Energy’s National Renewable Energy Laboratory (NREL) have developed an alternative epoxy resin known as PECAN. Its name an acronym for "PolyEster Covalently Adaptable Network," the substance can be made from bio-based feedstocks such as waste glycerol or other non-food-competitive sugars.

Cubes of the PECAN resin, which could reportedly be utilized in existing factories for the production of full-size wind turbine blades
Werner Slocum, NREL

After initial experiments on small samples, the researchers utilized PECAN in the construction of a 9-meter (29.5-ft)-long wind turbine blade that incorporated a carbon fiber spar cap, a balsa wood core, and a fiberglass shell.

Testing showed that its tensile strength was similar to that of blades made with traditional resins, as was its ability to withstand harsh weather. And importantly – unlike some other experimental blades made from eco-friendly materials – it wasn't prone to a phenomenon known as "creep," in which a blade deforms over time.

After these tests were completed, the PECAN blade was cut up into cubes which were subjected to a chemical process called methanolysis.

This process dissolved the resin in about six hours at a temperature of 225 ºC (437 ºF), allowing the pristine carbon and glass fibers to be completely recovered. The catalyst chemical that had been used to harden the resin was also recovered. And as an added bonus, a compound by the name of polyol – which formed as a byproduct of the depolymerization of the resin – was recovered for possible subsequent use in plastics such as polyurethanes.

NREL senior researcher Nic Rorrer, co-corresponding author of a paper on the study, tells us that 80% of the materials used in the blade (by mass) were ultimately recovered. The balsa wood did undergo some loss of mass, although further research may help change that.

"Just because something is bio-derivable or recyclable does not mean it's going to be worse," he says. "It really challenges this evolving notion in the field of polymer science, that you can't use recyclable materials because they will underperform."

The paper was recently published in the journal Science.

Source: NREL

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3 comments
yawood
Finally, some sense to the supposedly environmentally friendly energy generation. Maybe one day we will have energy generation that really is environmentally friendly and batteries that don't denude the environment of rare earths and then cause a catastrophe when they are discarded. People rail against nuclear energy and yet are happy with wind turbines and batteries that are a disaster when they are discarded after their relatively short life span. Get real.
martinwinlow
@ yawood
Whilst I generally agree with the sentiment in your comment, there is so much myth and Big Oil-propagated (and corrupted mass-media supported) nonsense in it that I just had to 'bite'.
1/ Whilst making turbine blades does mean, currently, that a lot of hydrocarbons and other material ultimately ends up in land fill, at least that landfill is relatively benign - the by-products of continuing to burn fossil fuels (or even using nuclear) to supply our energy needs is 1000 times worse. So, unless you want to wind the clock back 200 years or live in a cave, wind energy (and other renewables) is by far the lesser of the 2 evils (rather obviously, IMO).
2/ Battery technology is a *very* broad field and whilst the earlier EV batteries (for example, and those upon which most large grid-scale battery storage is based upon) did rely on the use of REMs, more modern technologies - already very firmly in place in the market - do NOT.

3/ Why pick on renewable energy (or even EVs) when REMs have been used in the tens of thousands of tons (cobalt alone) since the early 20th century for a myriad of modern products and processes - *including refining petrol and other fossil fuels as well as cleaning the by-products of their combustion*.
So, *you* 'get real' and perhaps a little more research and less 'soap-boxing' would be appropriate for your next comment?
yawood
That's not to mention all the millions of solar panels that are and will clog landfill everywhere. Yes, get real.