Toyota telah melancarkan Mirai 2024, versi terkini bagi Fuel Cell Electric Vehicle (FCEV) mereka. Mirai menawarkan jarak pandu yang diperluas sejauh 646km, menampilkan warna luar Elemental Silver yang baru dan pemilihan logo Beyond Zero untuk menekankan komitmen Toyota untuk mengurangkan pelepasan karbon.
Mirai beroperasi sebagai kenderaan elektrik “plug-less”, menggunakan sistem sel bahan api yang menghasilkan elektrik dari hidrogen, hanya melepaskan air. Dibangunkan atas platform Rear-Wheel Drive GA-L, Mirai menyediakan pengalaman sedan mewah-sport mid-size dengan fleksibiliti kawalan yang luar biasa. Rekabentuk aerodinamiknya menyumbang kepada kecekapan dan prestasi keseluruhan.
Di dalam, Mirai menawarkan teknologi dan keselesaan yang canggih, dengan skrin sentuh multimedia 12.3 inci, sambungan Bluetooth berganda, pengecasan tanpa wayar, dan keserasian dengan Apple CarPlay dan Android Auto.
Keselamatan adalah keutamaan dengan Toyota Safety Sense 3.0, termasuk Sistem Pre-Collision dan Peringatan Keluar Laluan. Ciri keselamatan tambahan termasuk Blind Spot Monitoring, Rear Cross Traffic Alert, dan Traffic Jam Assist.
Pemilik Mirai dapat mendapat manfaat dari Perkhidmatan Terhubung, ToyotaCare, bahan api hidrogen percuma, sokongan telefon 24/7, dan jaminan FCEV lapan tahun/160,934km, menunjukkan komitmen Toyota terhadap kepuasan pelanggan dan ketahanan pelaburan mereka dalam FCEV.
Harga untuk Mirai XLE adalah $50,190 (RM237,273) dan Mirai Limited sebanyak $67,155 (RM317,475).
In a move toward a more sustainable and futuristic automotive landscape, Toyota has unveiled the 2024 Mirai, the latest iteration of its groundbreaking Fuel Cell Electric Vehicle (FCEV). With an impressive range, new features, and enhanced safety technologies, the second-generation Mirai is set to redefine the standards for hydrogen-powered luxury.
One of the standout features of the 2024 Mirai is its extended driving range. The Mirai XLE grade boasts an EPA-estimated range of 646km, a notable improvement that caters to the growing demand for extended-range FCEVs. Beyond its extended range, the Mirai introduces a fresh Elemental Silver exterior colour and Beyond Zero badging, underlining Toyota’s commitment to reducing carbon emissions and embracing a carbon-neutral future.
The inclusion of Toyota Safety Sense 3.0 further enhances the safety profile of the Mirai, making it a comprehensive choice for drivers prioritising advanced safety technologies.
At the heart of the Mirai’s allure is its “plug-less” electric vehicle operation. Instead of relying on traditional charging methods, the Mirai utilises a fuel cell system that generates electricity onboard from hydrogen. This process results in the emission of only water, aligning with Toyota’s commitment to creating environmentally friendly vehicles. The Mirai incorporates cutting-edge technologies, including an electrostatic air cleaner, a water-cooled oil cooler, and a lithium-ion battery, ensuring efficient and sustainable performance.
Built on the premium Rear-Wheel Drive (RWD) GA-L platform, the Mirai delivers a mid-size luxury-sport sedan experience. The GA-L platform, coupled with a sophisticated multilink suspension, guarantees exceptional handling agility and a remarkably smooth, quiet ride. The Mirai’s aerodynamic design, featuring a 0.29 coefficient of drag, not only contributes to efficiency but also enhances overall performance.
Inside the Mirai’s cabin, advanced technology and comfort seamlessly intertwine. Both Mirai grades feature a standard 12.3-inch multimedia touchscreen display, offering an intuitive interface for drivers and passengers alike. Connectivity options abound, with dual Bluetooth phone connectivity, wireless charging, and compatibility with Apple CarPlay and Android Auto. The Mirai caters to comfort with features like SoftTex-trimmed and heated seats, a Colour Head Up Display (HUD), and a digital rear-view mirror with HomeLink on the Limited grade.
Safety takes center stage in the 2024 Mirai, now equipped with Toyota Safety Sense 3.0. This comprehensive safety suite includes features such as Pre-Collision System, Full-Speed Range Dynamic Radar Cruise Control, Lane Departure Alert with Steering Assist, and more. Additional safety elements include Blind Spot Monitor, Rear Cross Traffic Alert, and Traffic Jam Assist, ensuring a secure driving experience.
Mirai owners can enjoy an array of Connected Services, including Safety Connect, Service Connect, and Remote Connect. Extended benefits such as ToyotaCare, complimentary hydrogen fuel, dedicated 24/7 phone support, and an eight-year/160,934km FCEV warranty underline Toyota’s commitment to customer satisfaction and the longevity of their FCEV investment.
The pricing for the Mirai XLE is $50,190 (RM237,273) and the Mirai Limited at $67,155 (RM317,475).
Toyota has various solutions to offer that can contribute towards the quest for carbon neutrality. It does not believe that pure electric vehicles (EVs) are the only way to go as different markets and regions require different approaches. It has hybrid electric vehicle (HEV) technology at one end of the range of mobility solutions and at the other more advanced end, it can also provide fuel cell electric vehicles (FCEVs) that use hydrogen.
For Malaysia at the moment, HEV technology is deemed the most practical solution and the company has started assembling HEV models locally to accelerate adoption. HEVs like the Corolla Cross Hybrid do not depend on charging stations to recharge their battery packs and the process occurs while the SUV is moving. Thus Malaysians can do their balik kampung journeys with peace of mind and don’t have to think about finding a recharging station.
n a year that was characterized by the ongoing pandemic and superconductor and component supply issues that led to the delay of some model launches, most manufacturers managed to plan and still execute their new car introductions. This enabled the jurors of the annual ‘Japan Car of the Year’ event to carry out their assessments of over 30 contenders.
In the first of two voting procedures, the award’s 60 jurors selected the ’10 Best vehicles’ of the year in late November. Following this, they then voted a second time to select the year’s best car as well as the winners of 4 special awards. When counting was completed at an online award ceremony on today, it was the Nissan Note e-Power series which was pronounced ‘Japan Car of the Year 2021-2022’.
Hybrid powertrain of the Nissan Note e-Power.
With 335 votes, the Nissan hatchback beat the Toyota GR86/Subaru BRZ pair which scored 264 votes, and the Honda Vezel (HR-V) with 227 votes. The new Note e-Power range, with its 1.2-litre hybrid powertrain, is currently on sale in Japan but the carmaker has plans to launch the e-Power drivetrain in European and US markets in the near future.
According to the COTY committee, the Note e-Power’s win was due to its hybrid powertrain, excellent fuel economy and handling, keen pricing and stylish design.
This year’s title is the fifth one for Nissan while the Volkswagen Golf’s popularity with the Japanese is evident by it collecting another title for the latest generation after the Golf 7 in 2013 (when it was also overall ‘Japan Car of the Year’).
Volkswagen Golf wins the Import Car of the Year title again.
PAST WINNERS
1980-1981: Mazda Familia (323)
1981-1982: Toyota Soarer
1982-1983: Mazda Capella (626)
1983-1984: Honda Civic
1984-1985: Toyota MR2
1985-1986: Honda Accord 1986-1987: Nissan Pulsar
1987-1988: Mitsubishi Galant 1988-1989: Nissan Silvia SX
1989-1990: Toyota Celsior (Lexus LS)
1990-1991: Mitsubishi Galant
1991-1992: Honda Civic 1992-1993: Nissan March
1993-1994: Honda Accord
1994-1995: Mitsubishi FTO
1995-1996: Honda Civic
1996-1997: Mitsubishi Galant
1997-1998: Toyota Prius
1998-1999: Toyota Altezza (Lexus IS250)
1999-2000: Toyota Vitz (Yaris)
2000-2001: Honda Civic
2001-2002: Honda Fit (Jazz)
2002-2003: Honda Accord
2003-2004: Subaru Legacy
2004-2005: Honda Legend
2005-2006: Mazda MX-5
2006-2007: Lexus LS460
2007-2008: Honda Fit (Jazz)
2008-2009: Toyota iQ
2009-2010: Toyota Prius
2010-2011: Honda CR-Z 2011-2012: Nissan LEAF
2012-2013: Mazda CX-5
2013-2014: Volkswagen Golf 7
2014-2015: Mazda2/Demio
2015-2016: Mazda MX5
2016-2017: Subaru Impreza
2017-2018: Volvo XC60
2018-2019: Volvo XC40
2019-2020: Toyota RAV4
2020-2021: Subaru Levorg
Hydrogen is the most abundant element in the universe and from it, electricity can be created using a technology from the space program – the fuel cell. Through a chemical reaction with oxygen, electrical energy can be produced with only water as a by-product. The fuel cell is therefore a strong candidate to power electric vehicles – except that the technology is still very expensive and hydrogen stations are very limited.
Nevertheless, companies like Toyota have developed fuel cell electric vehicles (FCEV) and its Mirai model is already in its second generation and sold in selected markets. Recently, a Mirai set a Guinness World Record for a FCEV by travelling 845 miles (1,360 kms) on a full tank of hydrogen. The journey, which was done in southern California, beats an earlier world record set in France in May this year that achieved 1,003 kms.
The official record attempt was closely monitored by Guinness World Records officials and followed the strict rules and documentation procedures. The record distance achieved was more than double the EPA-estimated mileage that Toyota uses in marketing communications for the model.
The car was driven by a professional hypermiler and a partner over a period of 2 days over a route from the Toyota Technical Centre in California where Toyota’s fuel cell development group is based. The route used normal roads which included the Pacific Coast Highway and included rush hour traffic on the San Diego freeway. The Mirai was driven until the 3 hydrogen tanks were empty.
By the end of the trip, the Mirai had consumed a total of 5.65 kgs of hydrogen and passed 12 hydrogen stations along the drive routes without having to stop for refuelling. It emitted no carbon dioxide whereas a standard internal combustion engine vehicle, over the same distance, would have emitted about 300 kgs of the gas that is said to cause global warming.
Toyota adds that the record was achieved by drivers skilled in hypermiling techniques that optimized the Mirai’s vehicle performance under specific weather and driving conditions. . Additionally, as on the car’s Predictive Efficient Drive can learn repeatedly travelled routes to optimize charging and discharging of the battery to help maximize fuel economy and driving range. They also leveraged some basic fuel-efficient driving tips that any driver can learn but the car itself was a standard 2021 model on sale to the public.
The Mirai is priced from US$49,500 (about RM207,000) which is about 20% less than the first generation that went on sale in 2014. Buyers can receive state government incentives to lower the purchase price. Hydrogen is sold by weight and in California, the price per kg is around US$16 (about RM67). To fill all 3 tanks on board, the amount needed would be 5.65 kgs which would cost about US$90 (about RM376) and can provide up to 640 kms of driving if you are not trying to set a record. The electric powertrain generates 128 kW of power which is equivalent to 174 ps with 300 Nm of torque to give a claimed 0 to 100 km/h time of 9.7 seconds.
Fuel cell technology for use in cars is still something in its infancy and only a few manufacturers have started to offer them commercially and even then, in limited numbers and markets. The Toyota Mirai is one of the fuel cell electric vehicles (FCEV) already in production, its first generation having been launched in 2014.
The second generation of the Mirai went on sale late last year and is currently available in Japan, North America and some European markets. As would be expected, has more advanced fuel cell technology that improves performance in many areas.
The compact, high-output Fuel Cell stack has smaller and lighter parts, and it has been specially designed for use with the TNGA GA-L platform. The FC stack sets a new record for specific power density at 5.4 kW/litre as maximum power has risen from 114 kW to 128 kW.
More fuel capacity
The new Mirai also has increased fuel capacity (approximately 20%) which extends range. Hydrogen can be pumped in much faster than the fastest recharging time for an electric vehicle which can be up to 25 minutes. Its refuelling time is less than 5 minutes at a 700-bar refuelling station.
Over 1,000 kms travelled
This increased range has enabled the Mirai to break the world record for the distance driven with one fill of hydrogen – over 1,000 kms. The record-breaking run was done in France last month and the car was driven on public roads.
The Mirai can store a total volume of 5.6 kgs of green hydrogen. During the run, the average fuel consumption was 0.55 kg/100 kms, the distance and consumption being certified by an independent authority.
‘Eco-driving’ style used
Toyota does mention that, to achieve the 1,003-km driving distance record, the 4 drivers adopted an ‘eco-driving’ style. However, they did not use any special techniques and everyday drivers can also apply a similar driving style if they want to achieve good fuel economy. Under normal driving conditions, the Mirai has a claimed range of 650 kms with all tanks full.
“It’s an amazing challenge that we achieved with the new Mirai. Internally, it is the mindset of ‘Start your Impossible’, going beyond our own limits, that drives us, and we proved it again,” said Frank Marotte, CEO of Toyota France.
Even after you recover from COVID-19 infection, your quality of life may be affected and you will still suffer for a long period after that. So avoid being infected by taking the necessary measures to protect yourself as well as others – and also get your vaccination.
Motorsports have long been used for the testing and development of many new technologies which have eventually been used for everyday cars. Engineers who work with racing teams have to do so under challenging conditions that also require speed due to competition, and this provides fertile ground for developing new solutions to improve performance.
Toyota Motor Corporation (TMC) will also be taking this approach in developing a hydrogen-fuelled engine. Actually, the engine already exists and It has been installed in a racing car based on Toyota’s Corolla Sport. This car will enter races under the ORC ROOKIE Racing banner, starting with the Super Taikyu Series 2021 Powered by Hankook Round 3 NAPAC Fuji Super TEC 24 Hours Race in May.
The hydrogen-fuelled racing car undergoing tests.
By refining its under-development hydrogen engine in the harsh environment of motorsports, Toyota aims to contribute to the realization of a sustainable and prosperous mobility society, ultimately enabling a carbon-neutral mobility society.
Toyota has long engaged in the innovation of engine technology, and in fact, the company has not only successful developed fuel cells (FCs) which use hydrogen that chemically reacts with oxygen in the air to produce electricity, but it has also used those fuel cells to power the electric motor in the Mirai, Toyota’s first commercialised fuel cell electric vehicle (FCEV). Except for the combustion of minute amounts of engine oil during driving, which is also the case with petrol engines, hydrogen engines emit zero CO2 when in use.
For the hydrogen engine, the fuel delivery systems for FCEVs have been modified from those used with petrol engines. Combustion in hydrogen engines occurs at a faster rate than in petrol engines, resulting in a characteristic of good responsiveness. While having excellent environmental performance, hydrogen engines also have the potential to relay the fun of driving, including through sounds and vibrations.
Plans are for the hydrogen-engined racing car to be fueled during races using hydrogen produced at the Fukushima Hydrogen Energy Research Field. While aiming to expand the hydrogen infrastructure in Japan by promoting hydrogen use, Toyota intends to continue advancing efforts for economic recovery and revitalization of the Tohoku region together with all parties concerned.
Even in safety, Toyota intends to apply the technologies and know-how that it has accumulated through the development of fuel cell vehicles and the commercialization of the Mirai. To ensure safety related to the use of hydrogen and high voltage, the countermeasures cultivated during the development of electrified vehicles such as FCEVs and HEVs were implemented. These measures are based on the basic approach of ensuring that hydrogen does not leak and, in the unlikely event that any leaks should occur, ensuring their immediate detection and stoppage.
Mirai – Toyota’s first commercialised fuel-cell electric vehicle runs on hydrogen. Two generations have been produced since it first went on sale in 2014.
Toward achieving carbon neutrality, Toyota has been strengthening its efforts, such as by aiming to promote the use of hydrogen through the popularization of FCEVs and numerous other fuel-cell-powered products. Toyota has been taking various initiatives toward the creation of a hydrogen society, such as selling the Mirai and SORA FCEV bus, selling FC systems to FC product companies, as well as allowing royalty-free use of its FCEV-related patent licenses.
Toyota has developed a product that packages individual FC system-related products of second generation Mirai with enhanced performance, such as the FC stack, as well as components that handle air supply, hydrogen supply, cooling, and power control, into a single compact module.
The Mirai, Toyota’s electric vehicle powered by a hydrogen fuel cell (FCEV) has started its second generation with its market launch in Japan, on schedule, today. The company had given an early glimpse of the new model a year ago at the Tokyo Motorshow and said it would begin selling the car by the end of 2020.
After beginning serious development of FCEVs in 1992, the Mirai’s predecessor was launched in 2014 and was a revolutionary model. Like the Prius hybrid, it was a global forerunner in mass production of FCEVs. However, it was sold only in a limited number of markets where hydrogen refuelling stations were available.
2021 Mirai second generation
First generation Mirai
Feedback from customers indicated that more seating space was desired, so the new Mirai has space for 5 persons instead of 4. Its cruising range has also been increased by approximately 30% compared to the first generation, with up to 650 kms claimed.
Also following the way the Prius design evolved, the new Mirai’s appearance is less radical and has been given a more premium image. The concept of ‘silent dynamism’ was incorporated into the design with the aim of creating an emotional appeal not just because it is an eco-car, but because of its styling.
Sleeker, less radical styling
The new Mirai has sleeker proportions with overall height by 65 mm and 140 mm added to the wheelbase to extend it to 2920 mm. With the rear overhang extended by 85 mm, overall vehicle length is now 4975 mm.
“We have pursued the goal of making a car that customers will feel they want to drive all time, a car that has an emotional and attractive design and the kind of dynamic and responsive performance that can bring a smile to the driver’s face,” said Yoshikazu Tanaka, the new Mirai’s Chief Engineer who also headed the team for the development of the first generation.
“I want customers to say ‘I chose the Mirai not just because it’s an FCEV, but because I simply wanted this car; it just happens to be an FCEV.’ We will continue our development work focusing on that feeling, and we hope that with the new Mirai, we will be a leader in helping realise a hydrogen energy society,” he added.
Simple, modern cabin
The interior has been conceived as a simple, modern space with a warm, comfortable. Key elements include a 12.3-inch centre display and an instrument panel that wraps around the driver. As the Mirai runs only with an electric motor, there is no engine vibration or noise and with the enhanced body rigidity and additional soundproofing measures, the low level of quietness is significant.
A Toyota innovation is the catalyst-type filter is incorporated in the air intake. As air is drawn into the car to supply the fuel cell, an electric charge on the non-woven fabric filter element captures microscopic particles of pollutants, including sulphur dioxide, nitrous oxides and PM 2.5 particulates. The system is effective in removing 90 to 100% of particles between 0 and 2.5 microns in diameter from the air as it passes into the fuel cell system.
The Mirai sits on the TNGA-based GA-L platform which is intended for high-end rear-wheel-drive vehicles. The structures of various parts including the rear have been redesigned to create greatly enhanced body rigidity. This has a positive effect on ride and handling, enhancing driving dynamics and comfort.
The more rigid body also contributes to better occupant protection and with advanced driver assistance systems, the Mirai offers higher standards of motoring safety than before with the latest Toyota Safety Sense suite.
The driver assist functions are based on the Mobility Teammate Concept, a unique Toyota concept for automated driving whereby the car and driver act as partners to enhance each other’s capabilities and drive together. AI technology is used with on deep learning capability to forecast various situations that may be encountered while driving and provide support for driver responses.
Increased used of hydrogen for mobility
Since launching the first generation 6 years ago, hydrogen use for mobility has progressed widely to include trucks and buses. Toyota has continued to improve and advance its fuel cell (FC) systems in areas such as size, efficiency, and productivity.
There are three tanks which together increase the fuel capacity by around 1 kg (compared to the first generation), increasing hydrogen capacity by approximately 20% which, in turn, extends range. One of the tanks is now installed inside the floor tunnel space, which also helps in weight distribution for better stability and handling.
Though the Mirai is also powered by electricity, the hydrogen it uses can be pumped in much faster than the fastest recharging time for an electric vehicle which can be up to 25 minutes. The FCEV is said to be able to fully refuel in about 3 minutes from high-pressure pumps, certainly something that will appeal to potential buyers.
Compact and more powerful FC system
The compact, high-output FC stack is located in what is traditionally the ‘engine compartment’ but the motor and battery are at the rear. Toyota’s new FC stack and fuel cell power converter (FCPC) have been developed specifically for use with the GA-L platform. The designers have been able to bring all the elements together in the stack frame with each part made smaller and lighter, while at the same time improving performance.
The FC stack uses a solid polymer, as in the current Mirai, but has been made smaller and has fewer cells (330 instead of 370). Nonetheless, it sets a new record for specific power density at 5.4 kW/litre as maximum power has risen from 114 kW to 128 kW. Cold weather performance is also said to have been improved with start-up now possible at temperatures from as low as -30˚.
The car is equipped with lithium-ion high-voltage battery in place of the previous nickel-metal hydride unit. Although smaller in size, it is more energy-dense, giving higher output and superior environmental performance. Containing 84 cells, it has a 310.8 rated voltage compared to 244.8, and a 4.0 Ah capacity, versus 6.5 Ah. Overall weight has been reduced from 46.9 to 44.6 kgs.
Aiming for higher sales volumes
The introduction of the new Mirai will see Toyota target deeper market penetration with a 10-fold expansion in sales volume. To achieve this, the carmaker has adjusted the price downwards by around 20%. In Japan, where two grades are offered, prices start from 7,100,000 yen (about RM277,200) while the pricing in Europe is expected to start from 64,000 euros (about RM316,000) which is less than what Tesla charges for its similarly-sized EV.
Of course, actual prices customers pay will depend on incentives and rebates that governments in different countries offer. As with hybrids, the acceptance of FCEVs will depend on how much they are sold for and right now, with the advanced technologies being new, they are expensive. Therefore, governments have to help to make them affordable while the carmakers boost volumes so that economies of scale can kick in to lower costs. This has already happened with hybrids and next would be EVs, before FCEVs.
There is also the matter of refuelling stations which is an even greater challenge because it involves hydrogen supply. Even with plug-in hybrids (PHEVs) and full EVs, the issue of recharging stations has been one that consumers think about. This is being addressed by rapid expansion of the recharging station network in some countries, as well as the improvements in technology to provide longer range.
Don’t expect it in Malaysia anytime soon
Vehicles with petrol and diesel engines will be phased out eventually and in fact, they will be banned in some countries, including Japan, by the end of the decade. It’s uncertain how the situation will be in Malaysia given the instability of policies and the way they are executed. The aspiration to become the ‘EV hub of ASEAN’ is pretty much a dream, especially the governments of Thailand and Indonesia are already pushing ahead with clearly-defined programs to increase EV usage, which attracts some of the carmakers to make further investments as well.
As Toyota prepares to start production of the second generation of its Mirai fuel cell electric vehicle (FCEV), one of its customers in Europe has covered over 5 million kilometres with its Mirai fleet. CleverShuttle, a ride pooling service in Germany, has set a record of sorts for having the most used Mirai fleet in the world.
During the two and a half years that the company has been running the Mira, its cars have covered a distance equivalent to six and a half times the distance from Earth to the moon and back.
“Fuel cell electric vehicles such as Toyota Mirai became an important pillar for us, thanks to their reliability. They have allowed us to provide countless passengers with comfortable rides, emitting nothing but water vapour,” said Jan Hofmann, COO & CO-Founder of CleverShuttle
CleverShuttle acquired its first batch of Mirais in September 2017 with 20 units initially which were offered in Hamburg. The fleet was progressively expanded up to 45 cars which were distributed at several German locations.
Reliability a strong point
Throughout this period, no repairs or parts replacements were needed, apart from regular maintenance, according to Ferry M.M. Franz, Director of Toyota Motor Europe in Berlin. “The experience of driving 5 million kilometres shows that fuel cell vehicles are already perfectly suitable for everyday use. No technical defects whatsoever and the unrestricted performance of the fuel cell, with mileage up to 180,000 kilometres per car so far, demonstrate the maturity and durability of Toyota’s fuel cell system,” he said.
The Mirai was introduced in 2014 and has been available in Europe since 2015. It is available to both private and commercial customers. The 4-seater is emission-free, requiring only hydrogen which the fuel cell converts into electrical energy to power the motors.
The combined output of the electric motors is 113 kW (154 ps) and on a full tank of hydrogen, the Mirai can travel up to 500 kms. Unlike a battery pack which requires some time to recharge, refuelling the Mirai is said to take just under 3 minutes. Of course, hydrogen stations are limited at this time and it will be a while before a widespread network is established.
Technically sophisticated with its advanced technology, the Mirai has served as a catalyst for increasing global awareness of how a future clean and sustainable hydrogen society might be achieved. Just as the Prius hybrid has been progressively improved since it was launched in the late 1990s, the next Mirai will mark a new stage for FCEV technology. Improvements in fuel cell system performance and increased hydrogen storage capacity will extend its driving range.
