Nissan has revealed a Solid Oxide Fuel-Cell (SOFC)-powered prototype vehicle in Brazil that runs on bio-ethanol electric power – allowing it to run on multiple fuel sources.
The breakthrough model, an all-new light–commercial vehicle, can rely on multiple fuels, including ethanol and natural gas, to produce high-efficiency electricity as a power source.
Nissan president and CEO Carlos Ghosn said: “The e-Bio Fuel-Cell offers eco-friendly transportation and creates opportunities for regional energy production…all the while supporting the existing infrastructure. In the future, the e-Bio Fuel-Cell will become even more user-friendly. Ethanol-blended water is easier and safer to handle than most other fuels. Without the need to create new infrastructure, it has great potential to drive market growth.”
The fuel cell prototype forms part of Nissan’s ongoing commitment to the development of zero-emission vehicles and new automotive technologies including autonomous drive systems and connectivity. Nissan already sells the world’s highest-volume zero-emission car, the LEAF, and is pioneering Intelligent Mobility systems that will be deployed in a range of vehicles over coming years.
In this latest zero-emission development, the e-Bio Fuel-Cell prototype vehicle runs on 100-percent ethanol to charge a 24kWh battery which enables a cruising range of more than 600km. Nissan will conduct further field tests on public roads in Brazil using the prototype.
Research and development of the e-Bio Fuel-Cell was announced by Nissan in June in Yokohama. The powertrain is clean, highly-efficient, easy to supply, and runs on 100-percent ethanol or ethanol-blended water. Its carbon-neutral emissions are as clean as the atmosphere, which will be the part of natural carbon cycle. Also, the e-Bio Fuel-Cell offers the brisk acceleration and silent driving of an EV, along with its low-running costs, while boasting the driving range of a gasoline-engine vehicle.
Bio-ethanol fuels are mainly sourced from sugarcane and corn. These fuels are widely available in countries in North and South America, which feature widely-established infrastructure. Due to the easy availability of ethanol and low combustibility of ethanol-blended water, the system is not heavily dependent or restricted by the existing charging infrastructure, making it easy to introduce to the market. In the future, people may only need to stop by small retail stores to buy fuel off the shelf.
In pursuit of realizing a zero-emission and zero-fatality society for cars, Nissan continues to promote vehicle intelligence and electrification. Nissan’s brand promise of “Innovation That Excites” is delivered with “Nissan Intelligent Mobility”, which focuses on how cars are powered, driven and integrated into society through a more enjoyable driving experience.
The e-Bio Fuel-Cell will realize the concept of “Nissan Intelligent Power,” promoting greater efficiency and electrification of cars and the joys of driving, alongside battery EVs, such as the “Nissan Leaf”, “Nissan e-NV200,” and “e-Power,” which is equipped with an engine housing an exclusive large-capacity motor and power generator.
Nissan will continue to provide value to its customers by incorporating systems that enable the extraction of electric power from various fuels, while addressing the infrastructure issues tied to energy supply in every region of the world.
Why sports cars make us feel good
Forget romance, fine dining or an epic boxset binge – new preliminary research reveals that driving a sports car on a daily basis is among the best ways to boost your sense of wellbeing and emotional fulfilment.
The study measured “buzz moments” – peak thrills that play a vital role in our overall wellness – as volunteers cheered on their favourite football team, watched a gripping Game of Thrones episode, enjoyed a passionate kiss with a loved one or took an intense salsa dancing class. Only the occasional highs of riding a roller coaster ranked higher than the daily buzz of a commute in a sports car.
Working with neuroscientists and designers, Ford brought the research to life with the unique Ford Performance Buzz Car: a customised Ford Focus RS incorporating wearable and artificial intelligence technology to animate the driver’s emotions in real time across the car’s exterior.
Watch the video here https://youtu.be/AFpt6jziFsU
“A roller coaster may be good for a quick thrill, but it’s not great for getting you to work every day,” said Dr Harry Witchel, Discipline Leader in Physiology. “This study shows how driving a performance car does much more than get you from A to B – it could be a valuable part of your daily wellbeing routine.”
Study participants who sat behind the wheel of a Ford Focus RS, Focus ST or Mustang experienced an average of 2.1 high-intensity buzz moments during a typical commute; this compared with an average of 3 buzz moments while riding on a roller coaster, 1.7 while on a shopping trip, 1.5 each while watching a Game of Thrones episode or a football match, and none at all while salsa dancing, fine dining or sharing a passionate kiss.
For the research, Ford took one Focus RS and worked with Designworks to create the Buzz Car:
From concept, design and installation to software development and programming, the Buzz Car took 1,400 man-hours to create. Each “buzz moment” experienced by the driver – analysed using a real-time “emotional AI” system developed by leading empathic technology firm Sensum – produces a dazzling animation across almost 200,000 LED lights integrated into the car. The Buzz Car also features:
- High-performance Zotac VR GO gaming PC
- 110 x 500-lumen daylight-bright light strips
- 82 display panels with 188,416 individually addressable LEDs
Driver state research
Researchers at the Ford Research and Innovation Center in Aachen, Germany are already looking into how vehicles can better understand and respond to drivers’ emotions. As part of the EUfunded ADAS&ME project, Ford experts are investigating how in-car systems may one day be aware of our emotions – as well as levels of stress, distraction and fatigue – providing prompts and warnings, and could even take control of the car in emergency situations.
“We think driving should be an enjoyable, emotional experience,” said Dr Marcel Mathissen, research scientist at Ford of Europe. “The driver-state research Ford and its partners are undertaking is helping to lead us towards safer roads and – importantly – healthier driving.”
|Activity||Buzz Moments *|
|Game of Thrones||1.5|
* Average number of high-intensity buzz moments per participant
Car that sees round corners
Jaguar Land Rover is leading a £4.7 million (approximately R79 million) project to develop self-driving cars that can ‘see’ at blind junctions and through obstacles.
Britain’s biggest carmaker is leading a project called AutopleX to combine connected, automated and live mapping tech so more information is provided earlier to the self-driving car. This enables automated cars to communicate with all road users and obstacles where there is no direct view, effectively helping them see, so they can safely merge lanes and negotiate complex roundabouts autonomously.
Chris Holmes, Connected and Autonomous Vehicle Research Manager at Jaguar Land Rover said: “This project is crucial in order to bring self-driving cars to our customers in the near future. Together with our AutopleX partners, we will merge our connected and autonomous research to empower our self-driving vehicles to operate safely in the most challenging, real-world traffic situations. This project will ensure we deliver the most sophisticated and capable automated driving technology.”
Jaguar Land Rover is developing fully- and semi-automated vehicle technologies, offering customers a choice of an engaged or automated drive, while maintaining an enjoyable and safe driving experience. The company’s vision is to make the self-driving car viable in the widest range of real-life, on- and off-road driving environments and weather.
AutopleX will develop the technology through simulation and public road testing both on motorways and in urban environments in the West Midlands. Highways England, INRIX, Ricardo, Siemens, Transport for West Midlands and WMG at the University of Warwick join the AutopleX consortium, which was announced as part of Innovate UK’s third round of Connected and Autonomous Vehicle Funding in March 2018.