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STILFOLD unveil new wind turbine foundation design

Jun 16, 2023

Save to read list Published by Jessica Casey, Deputy Editor Energy Global, Tuesday, 06 June 2023 10:00

Swedish design and technology start-up, STILFOLD, has unveiled a new design concept for the foundation of wind turbines, which could reduce the carbon dioxide (CO2) emissions generated during the construction of onshore turbines by as much as 80%.

The innovative new design involves creating a series of long, curved beams out of recycled steel; and anchoring them to the ground in a design that mimics the way a tree's roots bury into soil.

STILFOLD estimates the method could significantly reduce the environmental impact of building wind turbines, by omitting the use of concrete and optimising how wind turbine foundations are transported and constructed on site to minimise their environmental footprint.

The estimated Climate Performance Potential of the STILFOLD design over the next 5 years is 8.8 megatonnes; which is equivalent to 25% of Sweden's annual CO2 emissions.

STILFOLD's pioneering wind turbine design involves cutting several long triangular pieces of steel from a large flat sheet; and folding each piece down the centre to create a series of tall, tent-shaped 3D beams.

Each beam would be designed and constructed according to site-specific conditions following a ground scan, using STILFOLD's patented computer-guided software and ‘industrial origami’ manufacturing technology. The technology involves the use of robotic arms to fold steel over curves to form light, strong and sustainable new structures with minimal component parts.

The triangular beams would be placed side-by-side and twisted together (similar to a piece of rope), before being bonded to form a tall, strong, and durable foundation that curves outwards at the bottom like a root structure.

The bottom of each of the beams would be anchored to the ground individually for improved stability, mimicking the roots of a tree.

The design provides a robust, adaptable structure suitable for various ground conditions; and could also be adapted to construct the foundation of other outdoor structures, such as buildings and bridges.

STILFOLD will be working with European partners to commercialise the design this year.

Jonas Nyvang, CEO and Co-Founder at STILFOLD, commented: "The foundation of an onshore wind turbine in the 7 – 8 MW range is constructed using over 1000 m3 of concrete and 150 t of steel reinforcement. This creates a number of challenges: economical (costs are huge), logistical (it is not easy to produce and transport such high quantities of materials, it needs 100 truck-loads) and technical (it is difficult to deploy such a high volume of concrete).

"Our new design solution offers a cost-efficient and environmentally-friendly way of building the foundation of wind turbines, by reducing the amount of concrete required to anchor wind turbines in place. It also eases the logistical burden of wind turbine construction by enabling modular construction: the STILFOLD beams can be transported individually and assembled on site."

Christian Engene, Sustainable Design Strategist at Remanufaktur, added: "The renewable energy transformation will require about 12 000 land-based wind farms to be built in the next five year period. STILFOLD enables a more sustainable way of manufacturing, completely removing the need for concrete. STILFOLD uses the latest low carbon steel manufacturing technology with the potential to reduce environmental impact by 80% from existing designs. The total Climate Performance Potential could save over 8 megatonnes of CO2 in the next five year period of wind power expansion."

Henrik Sieurin, Expert Engineer at Scania, whose PhD from KTH Royal Institute of Technology focused on steel and material optimisation, concluded: "Using STILFOLD for biometric-inspired manufacturing of a wind power foundation enables a structure with optimal load-path distribution and stiffness. This results in reduced material usage and outstanding sustainability compared with traditional solutions."

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