The group recently revealed its plans to popularize hydrogen by 2040 through the introduction of new technologies and mobility solutions in transportation and other industrial sectors.
Hyundai will see the electrification of all new commercial vehicle models – featuring fuel cell electric or battery electric powertrains, as well as the application of fuel cell systems – to all models by 2028.
The group has begun mass-producing an improved version of the current XCIENT Fuel Cell, and is also developing a tractor based on the XCIENT Fuel Cell that will be released in 2023.
Through the development of hydrogen commercial vehicles, the group will promote the complete transition of Korea’s public transportation and logistics systems to hydrogen-based solutions.
In addition, Hyundai will fully re-energize global commercial vehicle markets including Europe – which at present consists of 400,000 new units a year – through its advanced next-generation fuel cell technologies. The group will develop a 5- to 7 m fuel cell PBV (Purpose Built Vehicle) to target the global light commercial vehicle market projected for 7 MM unit sales per year by 2030. This will be in part undertaken by an expansion in its business capabilities and applying autonomous driving and robotics to the commercial vehicle sector.
Fuel cell systems are not only being used commercially for vehicles such as the NEXO SUV, Elec City Bus and XCIENT Fuel Cell truck, but also have the potential for deployment across diverse applications by 2040, including high-performance vehicles, urban air mobility, robots, aircrafts and large ships. As a result of such capabilities, Hyundai will expand the scope of fuel cell systems and technologies to all areas of the energy sector, including the provision of electricity and heating to buildings, urban energy sources and power plants.
To achieve this, the group is planning to introduce a new generation fuel cell system in 2023 that realizes a reduced price and volume with significantly improved durability and output. Through ongoing R&D gains, engineering teams for the Group have been able to reduce fuel cell costs drastically over the last 20 years. By ensuring price competitiveness, the group’s goal is to achieve a fuel cell vehicle price point comparable to a battery electric vehicle by 2030.
The future for hydrogen mobility
At the Hydrogen Wave global online forum the group presented its vision for future hydrogen mobility across several vehicle applications, from emergency relief and rescue, through to autonomous container transportation and high-performance sports cars.
Production, storage and transportation convenience will be important factors for the widespread application and the use of fuel cell technology. Under the group’s HTWO brand for fuel cells, Hyundai is also unveiling new concepts for portable, hydrogen refueling facilities.
Trailer Drone - The Trailer Drone concept is a hydrogen-powered container transportation system capable of operating fully autonomously. With the number of packaged hydrogen tanks tailored to the journey profile, the Trailer Drone ensures more than 1,000 km of range from a single charge, comparable to existing container transportation systems.
Fuel Cell e-Bogie - The term ‘bogie’ originates from the rail industry. Rail bogies are wheel subframes that sit under every train car. The Fuel Cell e-Bogie sits under the container just like a rail bogie and is a fully enclosed system with fuel cell propulsion and fully independent four-wheel steering. The Trailer Drone concept requires two fuel cell e-Bogies, allowing for maneuverability through sideways movement. The Trailer Drone can move autonomously through portside operations and tight urban environments. Efficiency is further boosted by the ‘Cluster Mode’ which enables multiple Trailer Drones to travel together in an almost train-like configuration.
The Fuel Cell e-Bogie is not exclusive to the Trailer Drone and caters to a wide value chain such as ground logistics, construction, firefighting and disaster relief missions. It offers a multi-purpose platform, capable of a variety of objectives – all in zero-emission and autonomous operation.
Vision FK - Fuel-cell technology is equally applicable to high-performance vehicle applications. In this respect, Hyundai has showcased a concept hydrogen-powered hybrid sports car, named the Vision FK. With a maximum output of over 500kW, the Vision FK concept can accelerate from 0-100km/h in less than four seconds. Combining a fuel cell energy converter with a high-power, RWD, plug-in powertrain, the Vision FK aims to achieve over 600km in range.
Rescue Drone - The Rescue Drone is a new concept mobility solution that combines with a Fuel Cell e-Bogie to create a flying drone that can be operated remotely and autonomously for critical operations such as fire-fighting and life-saving. The Rescue Drone features an independent steering system for in-place turning maneuvers and ‘crab-walk’ driving. It can also carry out missions via images transmitted from drones mounted on the vehicle exterior and achieves a 450 to 500km driving range from a single charge.
H Moving Station - The H Moving Station is a heavy-duty vehicle equipped with charging facilities for FCEVs. This portable hydrogen refueling station ensures convenience as well as charging options in areas with limited hydrogen refueling stations.
RHGV (Rescue Hydrogen Generator Vehicle) - The RHGV supplies power to vehicles in aid of urgent assistance in remote, off-road areas. The portable electric vehicle charger offers single-phase 220V and 3-phase 380V simultaneous power supply.
"Hyundai Motor Group’s vision is to apply hydrogen energy in all areas of life and industry such as our homes, work-places and factories. The goal is to make hydrogen readily used for everyone, everything, and everywhere," said Hyundai Motor Group Chairman Euisun Chung. “We want to offer practical solutions for the sustainable development of humanity and with these breakthroughs, we aim to help foster a worldwide Hydrogen Society by 2040.”