New Toyota Mirai fuel cell vehicle makes public debut

Toyota’s dramatic new Mirai Concept, which previews the second-generation version of its hydrogen fuel cell vehicle, has been shown in public for the first time at the Tokyo motor show. A production version of the car will go on sale in late 2020. The new hydrogen-powered concept is described as “a final-stage development model of the second-generation Mirai” and Toyota promises a major step forward in fuel cell electric vehicle (FCEV) technology. It claims the new model offers a 30% increase in driving range over the current model, which has a range of just over 300 miles, along with improved driving performance. The new Mirai Concept is built on Toyota’s latest TNGA platform and features dramatic new styling, including a revamped front with a bold grille and a sweeping, coupé-esque rear. Toyota claims increased body rigidity and a lower centre of gravity than the original Mirai. The concept measures 4935mm long and 1885mm wide, with a wheelbase of 2920mm. It sits on 20in wheels and retains the four-door saloon layout of the original Mirai, which was launched in 2014. The interior has also been reworked. It features a 12.3in central touchscreen and a digital instrument display, with many of the controls moved to the centre of the dashboard. Notably, the Mirai now has five seats instead of the original’s four, which, Toyota says, has been enabled by a reworking of the hydrogen fuel cell configuration. Aside from the claimed increase in range, Toyota has not given specific details of development work done on the fuel cell powertrain. But it says the system, including the fuel cell stack, has been entirely redesigned and offers increased hydrogen storage. It also claims the work on the system ensures a smoother, linear response, along with improved
Origin: New Toyota Mirai fuel cell vehicle makes public debut

New Toyota Mirai fuel cell vehicle to go on sale in 2020

Toyota has revealed a dramatic new Mirai Concept, which previews the second-generation version of its hydrogen fuel cell vehicle. A production version of the car will go on sale in late 2020 it was revealed on the eve of the Tokyo motor show. The new hydrogen-powered concept is described as “a final-stage development model of the second-generation Mirai” and Toyota promises a major step forward in fuel cell electric vehicle (FCEV) technology. It claims the new model offers a 30% increase in driving range over the current model, which has a range of just over 300 miles, along with improved driving performance. The new Mirai Concept is built on Toyota’s latest TNGA platform and features dramatic new styling, including a revamped front with a bold grille and a sweeping, coupé-esque rear. Toyota claims increased body rigidity and a lower centre of gravity than the original Mirai. The concept measures 4935mm long and 1885mm wide, with a wheelbase of 2920mm. It sits on 20in wheels and retains the four-door saloon layout of the original Mirai, which was launched in 2014. The interior has also been reworked. It features a 12.3in central touchscreen and a digital instrument display, with many of the controls moved to the centre of the dashboard. Notably, the Mirai now has five seats instead of the original’s four, which, Toyota says, has been enabled by a reworking of the hydrogen fuel cell configuration. Aside from the claimed increase in range, Toyota has not given specific details of development work done on the fuel cell powertrain. But it says the system, including the fuel cell stack, has been entirely redesigned and offers increased hydrogen storage. It also claims the work on the system ensures a smoother, linear response, along with improved
Origin: New Toyota Mirai fuel cell vehicle to go on sale in 2020

Toyota unveils new Mirai Concept fuel cell vehicle

Toyota has revealed a dramatic new Mirai Concept, which previews the second-generation version of its hydrogen fuel cell vehicle, ahead of this year’s Tokyo motor show. The new hydrogen-powered machine is described as “a final-stage development model of the second-generation Mirai” and Toyota promises a major step forward in fuel cell electric vehicle (FCEV) technology. It claims the new model offers a 30% increase in driving range over the current model, which has a range of just over 300 miles, along with improved driving performance. The new Mirai Concept is built on Toyota’s latest TNGA platform and features dramatic new styling, including a revamped front with a bold grille and a sweeping, coupé-esque rear. Toyota claims increased body rigidity and a lower centre of gravity than the original Mirai. The concept measures 4935mm long and 1885mm wide, with a wheelbase of 2920mm. It sits on 20in wheels and retains the four-door saloon layout of the original Mirai, which was launched in 2014. The interior has also been reworked. It features a 12.3in central touchscreen and a digital instrument display, with many of the controls moved to the centre of the dashboard. Notably, the Mirai now has five seats instead of the original’s four, which, Toyota says, has been enabled by a reworking of the hydrogen fuel cell configuration. Aside from the claimed increase in range, Toyota has not given specific details of development work done on the fuel cell powertrain. But it says the system, including the fuel cell stack, has been entirely redesigned and offers increased hydrogen storage. It also claims the work on the system ensures a smoother, linear response, along with improved
Origin: Toyota unveils new Mirai Concept fuel cell vehicle

Under the skin: Why hydrogen could be an easy cell

Twenty years ago, DaimlerChrysler, as the two merged companies were called then, launched the A-Class-based Necar 4, the first production-ready fuel cell vehicle capable of being driven on public roads. The plan was for the first commercial version, dubbed, ‘Necar X’ to be launched on public sale in 2004. By that time, DaimlerChrysler said it would have spent over £1.1 billion on fuel cell vehicle development: it was that big and looked that certain. The board member responsible for RD, Klaus-Dieter Vöhringer, said back then: “From 2004 to 2010, the population of fuel cell vehicles has to increase very fast otherwise the (refuelling) infrastructure will not grow.” He was dead right in one sense: it didn’t grow and fuel cell cars haven’t taken to the roads in large numbers. Yet. Some would say hydrogen fuel cells are the holy grail of sustainable propulsion because they emit nothing except water and heat from the tailpipe. So long as the hydrogen fuel they consume is produced sustainably, it’s an environmental free lunch with refuelling pretty much as easy and fast as it is with petrol or diesel. In common with a battery, a fuel cell ‘stack’ consists of hundreds of individual cells producing a little over one volt each. The favoured technology for cars and transport is the polymer exchange membrane (PEM) fuel cell. A fine polymer membrane sandwiched between a platinum cathode and anode and two flow plates in a kind of double-decker sandwich make up each cell. Hydrogen travels through the flow plates on the anode side while air is pumped through the cathode side as a source of oxygen. Hydrogen protons are attracted through the membrane to the oxygen, making water, leaving the hydrogen electrons behind, forming a current in an external circuit. There have been lots of technical hurdles to overcome – including scavenging residual water from inside the cells, which would freeze at low temperatures, starting the stack in sub-zero temperatures, economic manufacture and robustness – but today fuel cell systems are advanced, if still pricey. An entire fuel cell system consists of a stack, a carbonfibre tank capable of storing hydrogen at 750 bar and a small lithium ion battery to deliver both the fast surge of power needed for acceleration and to store energy from regenerative braking. Tough hydrogen tanks split and release hydrogen rather than exploding if damaged and, in that sense, the world’s most plentiful element is safer than petrol. The rest of the powertrain is like that of any other electric car, with an electric motor and power control module to manage it all. It’s also 20 years since the formation of the California Fuel Cell Partnership, one of the world’s largest institutions pushing the development of fuel cell technology. With its 2030 Vision programme, it aims to get 1,000,000 fuel cell vehicles on California roads along with 1000 hydrogen filling stations by 2030. Maybe then, the fuel cell ball will really start rolling. New train of thought Hydrogen fuel cells are ideal for large vehicles as well as cars. Two Coradia iLint fuel cell trains from French firm Alstom have been running in Germany since 2018 and 27 more have been ordered by a transport authority. A Hydroflex train masterminded by the University of Birmingham and train maker Porterbrook began UK trials in
Origin: Under the skin: Why hydrogen could be an easy cell

New fuel cell design could make hydrogen-powered cars cheaper

Researchers at Ontario’s University of Waterloo have developed a fuel cell they say could potentially make the technology cheap enough to replace the gasoline engine. Fuel-cell vehicles are electric cars that make their own power by producing electricity within the fuel cell, using ambient air and an on-board supply of hydrogen. Xianguo Li, director of the university’s Fuel Cell and Green Energy Lab, said the new cell may last as much as ten times longer than current fuel-cell technology. This improvement would make them economically practical to power vehicles, if they are mass-produced. “With our design approach, the cost could be comparable or even cheaper than gasoline engines,” Li said. “We have found a way to lower costs and still satisfy durability and performance expectations.” The researchers originally concentrated on hybrids, looking at ways to replace the hybrid system’s gasoline engine with a fuel cell. However, the high cost of current fuel cells is an issue. The new design makes the fuel cell far more durable by delivering a constant amount of electricity, rather than a fluctuating flow. Li collaborated with researchers and professors in Waterloo and in Sweden on the design. A paper on their work describes the design as three fuel-cell stacks that each work at a fixed power output, but are switched on and off to shorten the time each one is active. The results showed that the durability of the cells increased by 11.8 times in city driving, 4.8 times in highway driving, and 6.9 times in a combination of the two. The cost savings would come from the cells not having to be “over-designed” to make them last
Origin: New fuel cell design could make hydrogen-powered cars cheaper