Eco-Runner Team Delft

Eco-Runner Team Delft was founded by 11 students (7 from Belgium and 4 from the Netherlands), in the Netherlands in November 2005. They were second-year students of the Faculty of Aerospace Engineering, Delft University of Technology. The team's goal was to compete in the Shell Eco-marathon Prototype class competition on the Rockingham Motor Speedway in the UK in July 2006. The team built the Eco-Runner 1, an efficient petrol vehicle. The result of second project was the Eco-Runner H2, which was the first hydrogen-powered vehicle built by the team. Subsequently, all Eco-Runners from H2 to XIV were hydrogen-powered.

Currently, the team consists of 26 TU Delft students from various faculties. The team consists of both full-timers and part-timers across 5 departments: Management, Operations, Bodywork, Powertrain & Electronics, and Vehicle Dynamics. The team's offices and workshops are located in the D:DREAM Hall on the campus of the Delft University of Technology.

Hereunder, an overview of the different departments and the current (XV 2024/25) team members is included.

The first Eco-Runner, the Eco-Runner 1, was built with limited time and resources, and it lacked a functional fuel injection system. Despite this, it achieved the team's goal of driving 500 km on 1 liter of petrol. The car performed at 557 kilometers per liter, and this encouraged the team to build a new Eco-Runner and participate again with a new goal: to drive at 2000 kilometers per liter and land a top-5 spot in the Shell Eco-marathon at the Rockingham speedway.

The second Eco-Runner was named the Eco-Runner H₂. Its main improvement with respect to the Eco-Runner 1 was its completely integrated design. This improved the aerodynamic shape and reduced the weight of the vehicle. Furthermore, the team developed two propulsion methods for the Eco-Runner H₂, resulting in two physical Eco-Runners H₂.

The first propulsion method comprised a fuel cell driving an electric motor. The second propulsion method was is a six-stroke petrol combustion engine, which works similarly to a four-stroke engine, with the additional injection of a drop of water after the fourth stroke. The extreme heat remaining in the cylinder head causes the water to expand rapidly, resulting in a "free" working stroke. The disadvantage of this engine was a high level of corrosion, resulting from the combination of water, high temperature and high pressure.

The Eco-Runner H₂ participated in the 2007 edition of the Shell Eco-Marathon, where it achieved the Dutch fuel efficiency record of 2282 km/L of petrol using the fuel cell set-up (the hydrogen consumption of the fuel cell is monitored carefully by race officials and then converted to the equivalent of a liter of Shell 95 standard fuel using specific combustion heat of both substances). This was despite a hastily repaired and therefore very poorly functioning cruise control system, a feature essential for keeping all of the components working at maximum efficiency.

The third generation of the Eco-Runner participated in the 2011 Shell Eco-Marathon and placed 2nd. Major improvements were achieved regarding, aerodynamics, fuel cell efficiency, and weight reduction. Virtually no components of the Eco-Runner 3 were off-the-shelf: 95% of all components were either designed in-house or modified to suit the team's specific needs.

The fourth generation of the Eco-Runner participated in the 2014 Shell Eco-marathon in Rotterdam and placed 2nd again. This year marked specification changes in the prototype class, it was now a hydrogen class vehicle. A conversion was used from the energy in hydrogen to the equivalent energy in gasoline (liters), which allowed the vehicle to achieve a significant result of 3524 km/L. The weight of the Eco-Runner 4 was around 38 kg and driver's weight was 50 kg. During the race, the average force generated was close to 4 Newtons, and a nominal power of 35 Watts was achieved.

The fifth generation of the Eco-Runner participated in the 2015 Shell Eco-marathon in Rotterdam and came 1st. The archetype was named as a one-man vehicle powered by hydrogen fuel cell, becoming a category within the hydrogen class vehicle. The major specifications of the Eco-Runner 4 were carried over due to its highly aerodynamic design. Once again, the energy conversion from hydrogen to gasoline (liters) allowed the Eco-Runner 5 to achieve a significant result of 3653 km/L. Furthermore, the use of front wheel steering mechanism enabled the vehicle to achieve a turning radius of just 8 meters.

The Eco-Runner 6 participated in the 2016 Shell Eco-Marathon in London. It's aerodynamic shape was designed in such a way that extensive computational fluid dynamic analysis could be carried out for racing conditions. The application of zigzag strips was used to delay flow separation, which ultimately improved race performance. The combination of supercapacitors acted as a buffer between the fuel cell and the motor, while also providing the necessary support for the inclines on London tracks. This setup allowed for the rapid distribution of power to the motor, enabling the fuel cell to operate at its optimal efficiency continuously.

The Eco-Runner 7 was built in 9 months to participate at the 2017 Shell Eco-marathon in London. The track in London, as mentioned, is very dynamic, consisting of a hill and sharp corners, making it challenging to drive efficiently. The Eco-Runner 7 is subsequently custom-made for the track in London, a new concept for the entire powertrain system had to be designed. The powertrain system had been altered by implementing an external electric motor which is connected to the wheel with a chain transmission. In addition, the fuel cell was improved by reducing its weight and increasing its efficiency.

Eco-Runner 8 placed 3rd in the Shell Eco-marathon, which took place in London. The team also won the “Vehicle Design” prototype award, partially due to its impressive “neural network” which allowed them to effectively communicate with the driver. The hull of the Eco-Runner 8 was designed by means of wind tunnel tests. The vehicle had the electromotor placed in front of the rear wheel so that the vehicle was powered by means of a chain transmission. However, this chain resulted in significant energy losses during the race, prompting the next team to implement an in-wheel motor.

In comparison to its predecessors, the Eco-Runner 9 reached a milestone in innovation. The team improved the in-depth neural network to provide the driver with real-time information to optimize the race strategy, made changes to the composite thickness enhancing weight reduction, and placed an in-wheel motor to increase efficiency by changing from chain transmission to a direct transmission. The vehicle weighed only 42 kg, a 19% weight reduction compared to the Eco-Runner 8, and was able to claim third place in the Shell Eco-marathon Europe. Additionally, they again received the Vehicle Design Award.

The Eco-Runner X was the first to participate in the Urban Concept class of the Shell Eco-marathon. For this a completely new design was developed, including headlights, windshield wipers and a luggage compartment, approaching the design of a city car. With this new design the Eco-Runner X team once again won the Vehicle Design Award of the Shell Eco-marathon Off-track competition. The On-Track competitions of the Shell Eco-marathon were cancelled due to COVID-19, so the team organized their own on-track competition with HAN Hydromotive and won this race with an efficiency of 2500 km/L hydrogen.

The Eco-Runner XI was the second iteration to participate in the Urban Concept class of the Shell Eco-marathon. A teardrop profile of the body accompanied with continuous wheel caps and a curved bottom plane minimised the turbulence and maximised performance. This resulted in an overall decrease of 48% in aerodynamic drag compared to the previous car. A smart cruise control system was implemented with newly designed aluminium rims and an in-wheel motor, improving overall efficiency to 3396 km/kg hydrogen. The car won the Hydrogen Efficiency Challenge, a competition organized by the team itself in collaboration with HAN Hydromotive and Green Team Twente, because the On-track competition had once again been cancelled. Additionally, the Eco-Runner XI broke the world record for longest distance travelled in a hydrogen vehicle by driving non-stop for 36 hours on one tank (450 gr) of hydrogen, reaching a record distance of 1195.74 km.

The Eco-Runner XII was the third Urban Concept car of Eco-Runner Team Delft, but the first to participate in this class at the on-track competition of the Shell Eco-marathon in 2022 at TT Circuit Assen. It finished in 1st place, performing with an efficiency of 468 km/m^3, equivalent to 5407 km/kg. That year, the team had improved various aspects of the car design, including an optimized race strategy, a new fuel cell, an in-wheel electric motor, and significant weight reduction. Specifically, 41% weight reduction was achieved with various strategies. These included making the entire body of the car load-carrying, similar to the concept of a Formula 1 car, and replacing many aluminum parts with carbon fiber, a significantly lighter material.

The Eco-Runner XIII was the fourth Urban Concept car of Eco-Runner Team Delft, and set a new Guinness World Record by driving 2488.5 km on 950 grams of hydrogen.

The Eco-Runner XIV was designed, for the first time, to be a street legal hydrogen car, so the car had more than 1300 new regulations to adhere to, some of which were formulated with the help of the RDW. The vehicle class of the car was L7EA2, and it drove 2056 km on 1.45 kg of hydrogen for 3 days, following the route of an annual Dutch ice-skating route: the Eflstedentocht.

The results of the Shell Eco-marathon Prototype class competition are obtained by measuring the amount of hydrogen used per km and converting it to petrol (liters).

The results of the Urban Concept class are presented in the following table.

*There was no on-track SEM competition due to COVID-19. 1st in the off-track Vehicle Design Awards and at on-track competition against HAN Hydromotive.

**There was no on-track SEM competition due to COVID-19. 1st in the Hydrogen Efficiency Challenge, an on-track competition against Green Team Twente & HAN Hydromotive.

• Eco-Runner Team Delft official website