Co-engineered vehicle uses innovative thermal management fluid to enable faster charging, greater efficiency and lower lifecycle emissions

LONDON, June 23, 2026 (GLOBE NEWSWIRE) -- Shell has today unveiled its Triple 10 Challenge concept car, a ground-breaking proof-of-concept vehicle designed to inspire a new design philosophy for the next generation of battery electric vehicles (EVs).

The Shell Triple 10 Challenge Concept Car achieves a 10% to 80% charge in under 10 minutes thanks to advanced thermal fluids which avoid the need for large, heavy batteries.

This compact, mass-market EV demonstrates next-generation electric vehicle capability, and offers the industry an alternative to the current reliance on ever-larger batteries by re-imagining the fundamentals of thermal management.

A New Benchmark for Efficiency

The vehicle meets three ambitious goals that Shell believes can help drive the future of mass-market electric mobility:

Charge Faster - a sub 10-minute charge time

Go Further - 10-km/kWh economy,

Drive Cleaner - a life cycle 10-tonne CO2e footprint

The Triple 10 Challenge is the first road-worthy vehicle to have successfully demonstrated the potential of a simplified, single-circuit cooling architecture to efficiently manage the thermal load of the car's entire powertrain, even under the most extreme fast-charging scenario in real-world conditions.

Cara Tredget, VP Mobility & Lubricants Technology for Shell, said:

"With the Triple 10 Challenge concept car, we have unlocked the potential for faster charging, lighter systems and improved lifecycle efficiency by using our advanced thermal fluids. Together with our co-engineering partners, we are proud to develop alternative options for sustainable EV development leveraging technologies that are available today and are scalable to support customers into the future".

The Shell Triple 10 Challenge Concept car has been designed to achieve 10 km/kWh in driving economy with a smaller, more efficient battery system, adding over 30% improvement in overall energy efficiency compared to many current-generation EVs, enabled by Shell's advanced thermal fluids that provide optimal thermal management.

The Triple 10 Challenge vehicle is able to charge the battery from 10% to 80% charge in 9 minutes 54 seconds, without compromise to thermal stability or lifespan. While some EVs in market today can charge in under 10 minutes, this requires using an ultra-fast charger in excess of 300kW, which is uncommon on the public charging network. However, the Triple 10 Challenge vehicle is able to attain this on the existing charging network infrastructure using a standard 175kW charger, adding 24km/minute range, compared to typical BEVs at an average 13km/minute range on the same charger ? equivalent to almost 90% more range added per minute of charge.

The Triple 10 Challenge concept car is estimated to have a lifecycle carbon footprint of approximately 10 tonnes CO2e1. Enabled by its lightweight design, optimized battery capacity, low-carbon and recyclable materials, together with 100% renewable electricity for vehicle charging, this is estimated to represent around a 50% reduction in lifecycle emissions compared to typical battery electric vehicles in the European market2.

The Technology: Immersive Thermal Management

The key to the Triple 10 Challenge car's performance is Shell Recharge thermal fluid. Unlike traditional cooling systems that use water-glycol, Shell's dielectric fluid allows for direct immersion cooling of the battery and powertrain components including the motor and power electronics. By redefining heat management across the battery and powertrain, the team has unlocked the potential for faster charging, lighter systems and improved lifecycle efficiency - using technologies that exist and can scale today, as we look to leading in this space in our business tomorrow.

Unveiled at HORIBA MIRA's proving ground, the concept car is the culmination of Shell's Triple 10 Challenge. By incorporating a more compact and efficient battery pack design with fewer modules and using Shell's advanced thermal fluid, enabling a simplified housing architecture, these improvements contribute to about a 25% reduction in overall battery pack cost compared to a conventional EV.

Furthermore, Shell today announced the integration of Shell's full EV capabilities together under Shell Recharge - from charging, to fluids, to battery solutions, to create a stronger, single end-to-end offer for both B2B and B2C EV customers. As part of this, the Shell EV-Plus brand will be retired.

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1 The Triple 10 Challenge concept vehicle has been developed to demonstrate what is technically achievable under optimized conditions. These conditions include the use of 100% renewable electricity vehicle charging over the 200,000 km lifetime of the vehicle via the Shell Recharge network in the UK, powered by certified renewable electricity. The results are derived from a Shell internal life cycle assessment in line with ISO 14040 &14044 standards drawing on emission factor data from component suppliers and manufacturers, recognized LCA databases and literature publications. Actual results may vary under real-world conditions.

2 The indicated reduction in lifecycle greenhouse gas emissions relative to typical battery electric vehicles is based on a comparison with a published life cycle assessment study conducted by Ricardo in 2023 for the European Commission and assuming the same vehicle lifetime of 200,000 km. Differences in underlying methodological assumptions and vehicle specifications (including vehicle size and battery capacity), as well as use-phase conditions mean that the emissions reduction should be regarded as indicative only. Actual outcomes may vary in real-world applications.

Contact details:

Ben Hibbert, VCCP Roar, E: ben.hibbert@vccproar.com; MN: +447794413044

James Ralph, VCCP Roar, E: James.Ralph@vccproar.com; MN: +447889002305