Lotus unveils E-R9 next-generation EV endurance racer design study


Lotus unveiled the E-R9, a new design study for a next-generation pure electric endurance racer that could be on the starting grid of circuits around the world for the 2030 season.

The EV features a sleek fighter jet-style canopy centrally mounted in a delta-wing upper body. Innovations include advanced active aerodynamics with morphing body panels and vertically mounted control surfaces to assist with high-speed cornering.

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Lotus Engineering created the E-R9 as a technology showcase of its philosophy, capability and innovative spirit in the fields of advanced electrified powertrains and aerodynamics.

E-R stands for Endurance Racer, while 9 is the car’s competition number carefully chosen in tribute to Lotus’ racing past. It was in a Lotus Mark IX that the race team made its debut appearance at the Le Mans 24 Hours, with company founder Colin Chapman among the drivers competing. The year was 1955, meaning the E-R9 race car concept—if raced in 2030—would be in celebration of the Mark IX’s 75th anniversary.

The E-R9 was developed by the engineering team of Richard Hill, chief aerodynamicist at Lotus, and Louis Kerr, principal platform engineer on the Lotus Evija pure electric hypercar as well as technical director, GT, Geely Group Motorsports International. Visually it was brought to life by the Lotus Design team, led by Russell Carr, Design Director for Lotus.

What we’ve tried to do is to push the boundaries of where we are technically today and extrapolate into the future. The Lotus E-R9 incorporates technologies which we fully expect to develop and be practical.

—Richard Hill

Chief among the car’s aero innovations are its morphing body panels. Located across the delta-wing profile, this adaptability—where active surfaces can change their shape and attitude to the air flow either at the press of a button by the driver or automatically according to performance sensor inputs—would deliver minimum drag on the straights and maximum downforce in the corners.

Vertical control surfaces at the rear would generate aerodynamic forces to help the car change direction, without the limitations of grip at the tire contact patch. The result is a racer that’s partly driven like a car and partly flown like a fighter jet.

The Lotus E-R9 features an advanced electric drivetrain powering each wheel independently, a system enhanced with torque-vectoring. It builds on technology already integrated on the Lotus Evija pure electric hypercar, though for the E-R9 would be fully adjustable by the driver on the move.

Battery energy density and power density are developing significantly year on year. Before 2030, we’ll have mixed cell chemistry batteries that give the best of both worlds, as well as the ability to ‘hot-swap’ batteries during pitstops.

—Louis Kerr



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