Science can now make energy by building immense wind turbine blades and filtering carbon from the air, but the challenge is commercial viability.
One group of Californian chemists reports that it has found a way to filter carbon dioxide directly from the air and turn it into clean-burning methanol.
While scientists at Sandia National Laboratories have announced a design for an offshore wind turbine rotor blade 200 metres long − so huge that it could potentially deliver 50 megawatts from each turbine mast.
Neither innovation is anywhere near commercial exploitation yet. But both are continuing evidence of the ingenuity displayed and possibilities explored in the world’s laboratories and universities in the search for alternatives to the fossil fuel combustion that drives global warming, and with it the potential for catastrophic climate change.
Giant blades
The Sandia scientists, with partners in industry and universities, have taken a new look at the engineering of the giant blades that turn against the skyline in the world’s wind farms.
Most of those in the US are 50 metres long and deliver 1 or 2 megawatts (MW). The turbines and blades face into the wind, and the blades have to be rigid because, if they buckled or bent as the winds rose, they might smash against their towers.
Because the blades must be stiff, their mass multiplies with length, so there is a practical limit to the optimal length and power capacity: 80 metres in length, and 8MW in output.
But the Sandia researchers have considered how palm-trees behave in storms, and thought of another angle: turn the blades downwind of the tower.
At dangerous wind speeds, the blades could be stowed together and aligned in the direction of the wind, like fronds on a palm. That way, the blades could be modular, lightweight and designed to yield in the wind.
It means that the segmented, ultralight, morphing rotors could be made much longer, to take advantage of more wind surface, and generate more power − something the length of two football fields turning in the offshore wind to generate 50MW.
“The US has great offshore wind energy potential, but offshore installations are expensive, so larger turbines are needed to capture that energy at affordable cost,” says mechanical engineer Todd Griffith, who led the design team.
Read more at Wind and Air’s Hope for New Energy
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