• New airflow animation explains the Evija all-electric hypercar’s unique porosity and phenomenal downforce
• Highly experienced senior engineer with 30+ years at Lotus details philosophy of the Evija’s sophisticated aerodynamics
(Hethel, UK – 12 May 2020) – The unique porosity and phenomenal downforce of the Evija all-electric hypercar has been brought to life in a new animation from Lotus.
For the first time, Richard Hill, the highly experienced senior engineer who has guided this critical element of the 2,000 PS car’s design, details the philosophy of the Evija’s sophisticated aerodynamics.
Richard is chief aerodynamicist and has worked at Lotus for more than 30 years, supporting countless road and race car projects. When asked how the Evija compares to regular sports cars, he replied: “It’s like comparing a fighter jet to a child’s kite.’’
The full Q&A with Richard Hill is below:
– What’s the overall philosophy behind the Evija’s aerodynamics? It’s about keeping the airflow low and flat at the front and guiding it through the body to emerge high at the rear. Put simply, it transforms the whole car into an inverted wing to produce that all-important dynamic downforce.
– How would you compare the Evija’s aerodynamic performance to that of a regular sports car? It’s like comparing a fighter jet to a child’s kite.’’
– Can you explain the car’s porosity in aerodynamic terms? Most cars have to punch a hole in the air, to get through using brute force, but the Evija is unique because of its porosity. The car literally ‘breathes’ the air. The front acts like a mouth; it ingests the air, sucks every kilogram of value from it – in this case, the downforce – then exhales it through that dramatic rear end.
– What role does that deep front splitter play? It’s designed in three sections; the larger central area provides air to cool the battery pack – which is mid-mounted behind the two seats – while the air channeled through the two smaller outer sections cools the front e-axle. The splitter minimises the amount of air allowed under the vehicle, thus reducing drag and lift on the underbody. It also provides something for the difference in pressure between the upper and lower splitter surfaces to push down on, so generating downforce.’
– Are the Venturi tunnels through the rear quarters part of the porosity? Yes, they feed the wake rearward to help cut drag. Think of it this way; without them the Evija would be like a parachute but with them it’s a butterfly net, and they make the car unique in the hypercar world.
– What is the effect of the Evija’s active aerodynamics? The rear wing elevates from its resting position flush to the upper bodywork. It’s deployed into ‘clean’ air above the Evija, creating further downforce at the rear wheels. The car also has an F1-style Drag Reduction System (DRS), which is a horizontal plane mounted centrally at the rear, and deploying it make the car faster.
– Lotus pioneered the full carbon fibre chassis in Formula 1, and the Evija is the first Lotus road car to use that technology. How has that helped to guide the aerodynamics? The chassis a single piece of moulded carbon fibre for exceptional strength, rigidity and safety. The underside is sculpted to force the airflow through the rear diffuser and into the Evija’s wake, causing an ‘upwash’ and the car’s phenomenal level of downforce.
– The Evija is set to be the world’s lightest EV hypercar. Does weight affect aerodynamic performance? The car’s weight has no effect on overall aerodynamics. However, the lighter the car, the larger the percentage of overall grip is achieved through downforce and the lower the inertia of the car to change direction.
– Can you confirm the drag coefficient and downforce figures for Evija? We will release that data later this year when final testing is complete.
Richard Hill’s full title is Chief Engineer of Aerodynamics and Thermal Management, and he has worked at the company’s Hethel HQ since 1986. His role involves collaborating with the exterior designers of all new Lotus vehicles, from the early concept phase of a programme through to testing pre-production prototypes.
The focus is always on developing the aerodynamic performance which ultimately helps produce the world-class dynamic characteristics for which Lotus is renowned. Richard also helps to ensure all vehicle cooling, cabin ventilation and thermal management systems work correctly.
As well as working on road and race cars, Richard was the brains behind the Lotus Type 108 and Type 110 – better known as the Lotus Sport track and road bikes ridden to glory in the 1990s by legendary British Olympic and Tour de France cyclist Chris Boardman. He has also been instrumental in the development of the new track bike developed by Lotus for British Cycling athletes who will compete in the rescheduled Tokyo Olympics.
Ends
Notes to Editors
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About Lotus
Group Lotus is based in Potash Lane, Hethel, Norfolk, UK, NR14 8EZ. It is part of Geely Automotive, the fastest growing automotive group in the world. Geely has a 51% controlling stake, with 49% owned by Etika Automotive, a Malaysian conglomerate.
Lotus Cars builds world-class, high-performance sports cars including the Evora, Elise and Exige ranges. In July 2019 it launched the Evija, the world’s first all-electric British hypercar. Production will start in summer 2020.
Lotus Engineering provides a comprehensive consultancy service which works with many of the world’s OEMs and Tier 1 suppliers. It is internationally recognised for its long-standing contribution to ground-breaking automotive engineering and vehicle development.