Notice: Function _load_textdomain_just_in_time was called incorrectly. Translation loading for the loginizer domain was triggered too early. This is usually an indicator for some code in the plugin or theme running too early. Translations should be loaded at the init action or later. Please see Debugging in WordPress for more information. (This message was added in version 6.7.0.) in /home/thinkenr/public_html/wp-includes/functions.php on line 6114
Climate change: ‘Godfathers of wind’ share engineering’s QEPrize – Think Energy Media
AllClimate ChangeRenewables

Climate change: ‘Godfathers of wind’ share engineering’s QEPrize

Two men who made critical contributions to the development of wind power will share the £500,000 QEPrize, nicknamed the “Nobel of engineering.”.

Denmark’s Henrik Stiesdal framed the early design principles for wind turbines and led the installation of the world’s first offshore wind farm.

The UK’s Andrew Garrad developed the computer models that optimise and certify turbine and farm designs.

Their innovations had changed the world, the judges said.

And they had “enabled wind energy to fulfil a crucial role in today’s electricity generation mix.”.

The 2024 Queen Elizabeth Prize for Engineering laureates were announced at a ceremony in London’s Science Museum on Tuesday evening, in the presence of the Princess Royal.

Their recognition follows last year’s award to the pioneers of solar power.

Representational grey line
Previous QE Prize winners

2023: Origin of the solar boom
2022: Powerful permanent magnets
2021: Breakthrough LED lighting
2019: The famous five behind GPS

Mr. Stiesdal and Mr. Garrad began their wind journeys in the 1970s, both building “backyard” turbines.

The Dane was driven by concerns about energy costs arising from that decade’s oil shocks.

The Briton sought practical use for his mathematical skills, following a PhD modelling water flow around fast-swimming dolphins.

Mr. Stiesdal is associated with what became known as the “Danish concept,” setting the fundamental parameters for efficient and robust turbine design:

three rotating blades mounted up-wind of a two-speed gearing and generator system
a mechanism to control yaw, turning the whole set-up directly into the flow of air
“Of course, today’s turbines are much more advanced, but they still retain many of the early features,” Mr. Stiesdal told BBC News.

“All the turbines in the world go clockwise when you look at them with the wind in your back, because that’s how the original Danish turbines worked.

“For a while, half went counterclockwise, but now they all go clockwise because people recognised the success of the early design

Mr. Stiesdal licensed his concept to Vestas, working for them and introducing many innovations over a number of years before moving to Bonus (later acquired by Siemens), where he managed the 1991 installation of the world’s first offshore wind farm at Vindeby.

With 17-meter (56-foot) blades, its turbine rotors could generate 450 kW, enough to power a couple of thousand Danish homes.

Now, after 30 years of technological improvement, blades over 120 meters can generate 16 MW, enough to power tens of thousands of homes.

Mr. Garrad developed the software to prove a new turbine design will work and how it will operate within an array.

As a consultant, he has also played a major part in de-risking the industry, enabling it to access the finance needed to expand at a rapid pace.

“Being the go-between between engineering and finance has been really important,” he said.

“We’ve touched pretty much every turbine.

“About 70% of all turbines will have used our software in design.

“And for the 30% that didn’t, they probably came into contact with our software when they were being certified by a certification agent.”

When Mr. Stiesdal and Mr. Garrad began their careers, wind energy was an insignificant component of the energy mix.

It took 40 years to achieve 1 TW of global installed capacity, but most commentators expect the next one to be installed before the end of the decade.

Already, more than 8% of electricity generation worldwide is wind, and in the UK, it is close to a third.

Further innovation in floating turbines will see farms go into much deeper waters.

And, in general, the rotating machines will become taller still.

Mr. Stiesdal says no blade tip should rise higher than the Eiffel Tower, 330m, and the industry should instead concentrate on cutting the unit cost of production even further.

Lord Browne of Madingley, who chairs the Queen Elizabeth Prize for Engineering Foundation, said: “I remember even 15 years ago, people said, ‘Wind power, windmills—a ridiculous idea—they won’t work for the long term.’

“And, actually, there were plenty of very distinguished engineers who were very negative about wind power.

“But it’s been a remarkable journey, all thanks to these two evangelists, who made change happen.”

‘Encouraged others’

Prof. Dame Lynn Gladden, who chairs the QEPrize judges, said the two men’s achievements could not be separated.

“I don’t think they could have gotten to where they did without each other’s contributions,” she told BBC News.

“These are the guys who laid the foundations for it all.

“The principles they developed, they shared and encouraged others to follow.

“If you removed one of them, you wouldn’t have the technology we have today; we wouldn’t be where we are now.”

Source : bbc.com

Leave a Reply

Your email address will not be published. Required fields are marked *