- Second-generation Hope-Lotus bike features revised front forks and handlebars and the HBT Paris Frame, developed by Hope Technology
- Inspired by fighter jets, the fork’s serrated edge creates smoother airflow around the rider
- The fork uses the same high-grade carbon fibre and manufacturing process as the Lotus Evija hypercar
- Competitive track debut in August at the 2023 UCI Cycling World Championships in Glasgow, Scotland
London, UK – 28 July 2023 The second-generation Hope-Lotus track bike, unveiled today, has been meticulously designed and optimised to deliver improved track performance at the 2024 Olympic Games in Paris.
Lotus Engineering has collaborated with the Great Britain Cycling Team (GBCT), Hope Technology and Renishaw to evolve the Tokyo 2020 track bike which contributed to the track team winning seven Olympic medals and topping the event medal table.
Lotus and GBCT have developed the cockpit of the bike, evolving the unique front fork and handlebar design to allow for greater aerodynamic efficiency. This is coupled with the Hope HBT Paris frame which includes refinements to the headstock and seat stays. Renishaw has provided support in design and production of wind tunnel models and other crucial components on the final bike.
GBCT has been testing the bike rigorously on track and in a wind tunnel, working alongside the Lotus team to optimise the forks and handlebars ahead of its competitive track debut next month at the 2023 UCI Cycling World Championships in Glasgow, Scotland.
Richard Hill, Chief Aerodynamicist at Lotus, was responsible for the design of the Lotus 108 Olympic track bike and 110 Tour De France bike in the nineties and has continued to play a pivotal role in both the Tokyo Olympic track bike and now, the 2024 Hope-Lotus Olympic track bike.
Lotus Engineering has played to its strengths of optimised aerodynamics, advanced materials, lightweighting and engineering innovation to help guide the bike’s cockpit development. It has applied learnings made over 75 years in vehicle dynamics to improve front-end feel and stiffness to enhance rider confidence. Additional evolution of the components creates the sensation that the bike is carving through air, a signature element of the aerodynamic design found in the new Lotus vehicle line-up.
The unique patented, wide element fork design, introduced at the Tokyo Olympic Games, continues to reduce drag and break the air flow in front of the rider. Taking inspiration from fighter jet design, the fork has a new serrated edge that allows for smoother airflow around the rider. Customisable handlebars help riders to achieve a more efficient aero position for longer races, whilst an enhanced integration with the fork further reduces drag.
To guarantee lightness, the composite fork is crafted from the same high-grade carbon fibre and single-cure manufacturing process as the Lotus Evija hypercar. A combination of carbon fibre and 3D-printed metals is used to optimise aerodynamics, ergonomics, structural integrity and lightweighting.
More than 150 hours of wind tunnel testing and advanced computational fluid dynamics (CFD) simulation has helped to create significant aerodynamic gains. This testing was instrumental in optimising the airflow around the legs of the rider to reduce drag.
Mark Stringer, Commercial Director, Lotus Engineering said:
“Lotus is proud to have again played its part in helping British Cycling push the boundaries of sporting performance in the quest for Olympic medals. It’s the perfect demonstration of our ability to transfer the skills and knowledge we’ve gained through 75 years of automotive development to bring a new perspective to other industries. Through the deployment of our expertise, innovation, tools, techniques and processes developed to engineer high-performance Lotus cars, we’ve been able to deliver efficiencies to give British track riders the best possible opportunity for success.”
Lotus has a successful history in cycling through its Lotus Engineering division. Innovations include the early Lotus sports bikes used by cycling legend Chris Boardman in the nineties, the iconic Lotus type 108 in the noughties, through to the Hope-Lotus collaborations.
Stephen Park CBE, Performance Director for the Great Britain Cycling Team, said:
“Our relationship with Lotus Engineering, Hope Technology and Renishaw is going from strength to strength. Their combined high quality manufacturing standards, renowned lightweight design, aerodynamic efficiency and their keen eye for finer details help us to unlock valuable marginal gains, which make all the difference come race day. This is the most advanced bike that has ever been ridden by British athletes.”
Ends
Notes to Editors
For more information please contact the Lotus Communications team:
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+971 50 5187778
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+1 734 6087769
Diederik Reitsma, PR Manager, European Markets
diederik.reitsma@eu.lotuscars.com
+ 31 651 939 185
Jessica Liu, Director (China)
+86 186 09287181
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About Lotus
Lotus Cars is based in Hethel, Norfolk, UK, and is the global HQ for sports car and hypercar manufacturing operations, Lotus Advanced Performance and the iconic 2.2-mile test track. Lotus Cars builds world-class high-performance cars, born out of legendary success on the racetrack including 13 FIA Formula 1 world titles and many other championship honours. In July 2021 Lotus unveiled the all-new Lotus Emira, its last petrol-powered sports car and best-of-breed, and in July 2019 it launched the Evija, the world’s first all-electric British hypercar. Customer deliveries of both cars will begin during 2022. In March 2022 Lotus revealed the Eletre, the world’s first all-electric hyper-SUV. Customer deliveries will begin in 2023. The Lotus Type 135, an all-electric sports car, is currently being designed and engineered at Hethel.
Lotus Engineering provides comprehensive consultancy services to many of the world’s OEMs and Tier 1 suppliers. It is internationally recognised for its long-standing contribution to ground-breaking engineering and innovative vehicle development. Its expertise extends beyond automotive; in August 2021 a Lotus Engineering-developed track bike helped Team GB’s cyclists win seven medals, including three golds, at the Tokyo Olympics. An international consultancy with offices around the world, Lotus Engineering is headquartered at the Lotus Advanced Technology Centre on the University of Warwick’s Wellesbourne Campus in the UK.
Lotus Tech is an affiliate company of Group Lotus, established as part of the Vision80 strategy established in 2018. With operational assets across China, the UK and Europe, Lotus Tech is dedicated to delivering smart lifestyle battery electric vehicles (BEVs) such as the Eletre. Lotus Tech is focused on R&D in next-generation automobility technologies such as electrification, digitalisation and more. In addition to the Lotus Eletre, Lotus Tech plans to launch further BEV models including a sports sedan (Type 133) another SUV (Type 134) and more, as Vision80 reaches maturity in 2028.
Group Lotus is either the parent company of or affiliated with the above. In 2017, Geely Holding Group, one of the fastest growing automotive group in the world, acquired a 51% stake in Group Lotus. The other 49% is owned by Etika Automotive, a Malaysian conglomerate.