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The naturally aspirated V16 engine alone produces 1,000 HP at 9,000 rpm and delivers 900 Nm of torque.
The new mechanical heart of the Bugatti Tourbillon is handcrafted by the world-renowned engine specialists at Cosworth.
Episode 7 of ‘A New Era’ takes viewers through a significant milestone in the development of Bugatti's new V16 engine.
Marco Arnoletti, Powertrain Chief Engineer at Bugatti Rimac, and Emilio Scervo, CTO of Bugatti Rimac, reflect on the history of the new naturally aspirated V16 engine.
As in previous Bugatti models, the Tourbillon's engine is always visible and is a work of art in its own right.
Unlike conventional early-stage testing, which often begins with the construction of a single-cylinder prototype engine, Bugatti took a more ambitious approach and built an initial test engine with four cylinders.
Countless test-runs on Cosworth's engine dynos helped the team to better understand the performance characteristics, sound quality, and overall behavior of the new engine.
The plenum, a critical component in any naturally aspirated engine, became a key point of the design process as Bugatti worked to achieve the perfect balance between performance and aesthetics.
The new mechanical powertrain of the Tourbillon is unique in the automotive world with a length of almost one meter.
The 8.3-liter naturally aspirated V16 engine is a completely new innovation and has been specifically designed to meet the extreme requirements of Bugatti's new hyper sports car.
Prof. Dr. Ferdinand Karl Piëch led Bugatti back to the forefront of automotive engineering, elevating it once again to its historic role as the pinnacle of performance and luxury. ​
With a top speed of 407 km/h and acceleration from 0-100 km/h in 2.5 seconds, the Bugatti Veyron was more than a technical marvel; it was the embodiment of Ferdinand Karl Piëch’s relentless pursuit of perfection.​
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Fuel consumption and emissions

  • Bolide: Not subject to Directive 1999/94/EC, as it is a racing vehicle not intended for use on public roads.

  • Centodieci: WLTP fuel consumption, l/100 km: low phase 40.3 / medium phase 22.2 / high phase 17.9 / extra high phase 17.1 / combined 21.5; CO2 emissions combined, g / km: NA; efficiency class: G

  • Chiron: WLTP fuel consumption, l/100 km: low phase 44.6 / medium phase 24.8 / high phase 21.3 / extra high phase 21.6 / combined 25.2; CO2 emissions combined, g/km: 572; efficiency class: G

  • Chiron Profilée: WLTP fuel consumption, l/100 km: low phase 44.6 / medium phase 24.8 / high phase 21.3 / extra high phase 21.6 / combined 25.2; CO2 emissions combined, g/km: 572; efficiency class: G

    • Chiron Pur Sport: WLTP fuel consumption, l/100 km: low phase 44.6 / medium phase 24.8 / high phase 21.3 / extra high phase 21.6 / combined 25.2; CO2 emissions combined, g/km: 572; efficiency class: G

    • Chiron Sport: WLTP fuel consumption, l/100 km: low phase 44.6 / medium phase 24.8 / high phase 21.3 / extra high phase 21.6 / combined 25.2; CO2 emissions combined, g/km: 572; efficiency class: G

    • Chiron Super Sport: WLTP fuel consumption, l/100 km: low phase 40.3 / medium phase 22.2 / high phase 17.9 / extra high phase 17.1 / combined 21.5; CO2 emissions combined, g/km: 487; efficiency class: G

    • Chiron Super Sport 300+: WLTP fuel consumption, l/100 km: low phase 40.3 / medium phase 22.2 / high phase 17.9 / extra high phase 17.1 / combined 21.5; CO2 emissions combined, g/km: 487; efficiency class: G

    • Divo: WLTP fuel consumption, l/100 km: low phase 43.3 / medium phase 22.2 / high phase 18.0 / extra high phase 18.3 / combined 22.3; CO2 emissions combined, g/km: 506; efficiency class: G

    • La Voiture Noire: WLTP fuel consumption, l/100 km: low phase 43.3 / medium phase 22.2 / high phase 18.0 / extra high phase 18.3 / combined 22.3; CO2 emissions combined, g/km: 506; efficiency class: G

      • Tourbillon: This model is currently not subject to directive 1999/94/EC, as type approval has not yet been granted.

      • W16 Mistral: WLTP fuel consumption, l/100 km: low phase 40.7 / medium phase 21.9 / high phase 18.3 / extra high phase 17.6 / combined 21.8; CO2 emissions combined, g/km: 495; efficiency class: G

        Bugatti

        The specified fuel consumption and emission data have been determined according to the measurement procedures prescribed by law.

        Further information on official fuel consumption figures and the official specific CO2 emissions of new passenger cars can be found in the “Guide on the fuel economy, CO2 emissions and power consumption of new passenger car models”, which is available free of charge at all sales dealerships and from DAT Deutsche Automobil Treuhand GmbH, Hellmuth-Hirth-Str. 1, D-73760 Ostfildern, Germany and at www.dat.de.

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