The world’s increasing reliance on wind energy has spurred demand for wind turbines and the giant blades that power them. But meeting those market needs has been difficult due to the shortage and skyrocketing cost of balsa, the strong, lightweight wood that is sandwiched between GFRP to create wind blades. At least one blade manufacturer has been using polyethylene terephthalate (PET) and polyvinyl chloride foam (PVC) foams in blade tips, but it still requires balsa to provide shear modulus for the root section of the blade.

Within the next two years, Canada-based INCA Renewtech will offer an alternative – a sustainable biocomposite that could replace balsa at any location in the blade. INCA BioBalsa, manufactured from hemp fibers, has a density comparable to balsa (10 pounds per cubic foot) and an even better compressive strength than the wood due to its random fiber placement, according to the company. INCA says BioBalsa is cost competitive and more sustainable than balsa and foam, and unlike balsa, can be engineered to provide both moisture and fire resistance.

The hemp for BioBalsa comes from the Canadian prairies, where farmers have been growing the plant as a protein source for two decades. “But the tall stalks of the hemp plant, which contain some of the strongest fibers on earth, were underutilized, used as horse bedding and for soil remediation,” says David Saltman, INCA Renewtech’s chairman and CEO. “We realized that if we could process and refine the hemp ourselves to make textile grade materials, which is roughly 99% pure fiber, we could build our own composites out of that material. We could utilize what had essentially been a waste stream and get a much higher value out of a low-cost raw material.”

INCA Renewtech has developed applications for every part of the hemp plant. BioBalsa is made with short fibers from the hurd – the woody inner part of the stalk – which replace glass fiber as the reinforcement material. The company is in full-scale  manufacturing line trials for composite prepregs for Toyota. It is also trialing a plywood replacement called BioPanels™ made from hemp’s long fibers for Genesis Products.

Sustainable manufacturing is key to INCA Renewtech’s business model, and that approach is demonstrated in the manufacture of BioBalsa. A lifecycle assessment from GreenStep Solutions found that one cubic meter of BioBalsa sequesters 260 kg of carbon dioxide.

“You not only have that sequestration during the growing period, but if you’re going to put the product into a wind turbine blade – and that has a life of 20 or more years – that means that carbon continues to be sequestered,” says Camille Saltman, chief marketing and sales officer, INCA Renewtech. The company has also developed technologies that will enable deconstruction and material recycling of decommissioned blades.