The 2024 Queen Elizabeth Prize for Engineering (QEPrize) has been awarded to Denmark’s Henrik Stiesdal and Britain’s Andrew Garrad CBE FREng for their achievements in advancing the design, manufacture and deployment of high-performance wind turbines – developments which have enabled wind energy to make a material contribution to global electricity generation and deliver transformational impact in diversifying the global energy mix.
Awarded annually, the QEPrize is presented to engineers responsible for groundbreaking innovations that have been of global benefit to humanity. Now in its second decade as the leading international accolade for engineering achievement, the 2024 QEPrize Laureates were announced by Lord Browne of Madingley, Chairman of the Queen Elizabeth Prize for Engineering Foundation, during a reception at the Science Museum in the presence of HRH The Princess Royal, Royal Fellow of the Royal Academy of Engineering.
Over the past four decades, Stiesdal and Garrard have made seminal engineering inputs that – from demonstration to full-scale implementation – have resulted in a phenomenal increase in the size of individual wind turbines and the and the scale of the wind farms in which they are sited, as well as in their engineering an economic performance. Credited for the early technology and critical advances as the industry has evolved, the 2024 Laureates have each pioneered a system that is present in almost all modern wind turbines operating both onshore and offshore in the market today.
Initially designed in 1978, Henrik Stiesdal is credited for a three-blade turbine that represents what is sometimes described as the Danish concept. Leading notable developments in proprietary blade manufacturing technology throughout the 90s, Stiesdal’s elegant innovation that operates upwind of the tower and allows twisting of the blades about their own axis (pitch control) has significantly enhanced scale and efficiency of modern turbines. Further developments pioneered by Stiesdal include wind turbine blades cast in one piece, and direct-drive generators for offshore wind turbines, eliminating the need for gearboxes.
The BLADED computational design tool, pioneered by Andrew Garrad, allows engineers to model a complicated turbine system in its entirety and to predict its behaviour with the confidence needed to permit manufacture of these huge machines. It has been used all over the world and through the consultancy company he co-founded, which supported the industry through design consultancy, testing, measurements, energy evaluation and technical due diligence, has allowed the rapid expansion of the global manufacturing base. A similar analytical approach to wind farm yield pioneered widespread project finance by providing rigorous risk assessments of potential wind farm investment.
According to the International Energy Agency, wind has one of the greatest potentials to increase countries' renewable capacity growth. Solar PV and wind additions are forecast to more than double by 2028 and will constitute an unprecedented 96% of overall renewable power capacity expansion as cost competitiveness improves.
In December of last year, wind power accounted for 41.2% of the overall share of the UK energy mix, its highest ever level – while gas-fired generation constituted its lowest share in four years.
This steep growth trajectory has been made possible by the revolutionary improvements in wind energy pioneered by the 2024 QEPrize laureates. Advances in modern wind turbine technology have transformed the cost, availability and scalability of wind power generation and will play a central role in meeting global energy demand and transitioning to a zero-emissions electricity system.
Henrik Stiesdal said:
“It is an honour to receive the Queen Elizabeth Prize for Engineering alongside Andrew. To me, it represents much more than personal recognition; it is a tribute to the collective efforts of pioneers and engineers in wind power. Since the late 1970s they embodied the essence of this Prize, creating bold, groundbreaking innovations delivering sustainable and competitive energy, addressing climate change and providing global benefits for humanity. I am very happy to have had the opportunity to contribute to this development, and I look forward with eagerness to the future growth of wind power, driven by the dedication of new generations of engineers.”
Andrew Garrad said:
“Wind energy has been with us for millennia, but in the last 50 years, it entered a new era. The 10m diameter turbines of my early professional life have become the 250m giants of today – simply amazing! What could possibly be more exciting for an engineer? I count myself as extraordinarily lucky to have been part of that transition. To be awarded the Queen Elizabeth Prize for Engineering is a wonderful bonus to an already fascinating career. I am personally, immensely proud, but Henrik and I see ourselves as representatives of a much bigger group of people who have made wind energy an essential part of our zero-carbon future and we have, all of us together, earned this Prize.”
Lord Browne of Madingley FREng FRS, Chairman of the Queen Elizabeth Prize for Engineering Foundation said:
"This year we applaud the ingenuity of Henrik Stiesdal and Andrew Garrad for advancing the design, manufacture and deployment of high-performance wind turbines. The technological advances they spearheaded are changing the world for the good on an enormous scale. I extend my heartfelt congratulations to Henrik and Andrew, who have propelled global progress towards a net-zero future and have now taken their rightful place among the Queen Elizabeth Prize for Engineering Laureates.”
Professor Dame Lynn Gladden DBE FREng FRS, Chair of the Judges for the Queen Elizabeth Prize said:
“This year’s winning innovation truly captures what the Queen Elizabeth Prize for Engineering represents. Over the past four decades, Henrik Stiesdal and Andrew Garrad have advanced the design, manufacturing and deployment of wind turbines, enabling wind energy to fulfil a crucial role in today’s electricity generation mix. Their impact on the energy landscape showcases a commitment that resonates with the core values of engineering excellence, to problem-solve for a better society.”
Now in its eleventh year, QEPrize has honoured 24 engineers whose innovations have had a significant impact on billions of lives around the world. The 2024 Laureates, who share the £500,000 prize, will be formally honoured at the QEPrize Presentation Ceremony, where they will receive a unique trophy, designed by the 2024 Create the Trophy winner Sunil Thakkar, age 17, from India.
Notes for editors
About the Queen Elizabeth Prize for Engineering
Diverse, multifaceted, and continually evolving, engineering creates the solutions to global challenges and improves billions of lives. Engineers have enabled us to work together across the planet, explore the smallest cells and the most distant stars, and navigate our way through the world.
Awarded annually, the Queen Elizabeth Prize for Engineering (QEPrize) champions bold, ground breaking engineering innovation which is of global benefit to humanity. The prize celebrates engineering’s visionaries, inspiring young minds to consider engineering as a career choice and to help to solve the challenges of the future.
The prize also encourages engineers to help extend the boundaries of what is possible across all disciplines and applications.
Find out more: Queen Elizabeth Prize for Engineering