Australia’s first hydrogen-powered car unveiled in Sydney

 Hyundai Australia unveils the country’s first hydrogen-powered car – the ix35 Fuel Cell – and opens Australia’s only hydrogen vehicle refueling station at its Macquarie Park headquarters

· Hyundai committed to making Hydrogen Fuel Cell cars part of its long-term Australian plans

· Federal Industry and Science Minister unveils ix35 Fuel Cell and new refueling station

· World-leading ix35 zero-emissions Fuel Cell Electric Vehicle (FCEV) runs on hydrogen, burns no fuel and emits nothing but water vapour from its exhaust – range and refueling time similar to that of a normal petrol-powered car

· The next generation of Hyundai’s FCEV is targeted for introduction by 2018

· ‘Hydrogen Highway’ between Melbourne and Sydney would mirror similar projects in California and Europe

1 April, 2015 - The Federal Industry and Science Minister, The Hon. Ian Macfarlane MP, today unveiled Australia’s first hydrogen powered car, the Hyundai ix35 Fuel Cell.

The Minister also officially opened Australia’s only hydrogen vehicle refueling station and welcomed the commitment Hyundai Motor Company Australia is making to bring such leading edge green technology to Australian motorists.

The Hyundai ix35 Fuel Cell, hydrogen-powered, zero-emissions Fuel Cell Electric Vehicle (FCEV), built in Ulsan, South Korea, arrived in Australia in June 2014. It is the first hydrogen-powered car to be permanently based in Australia and it has been undergoing operational trials in the lead up to today’s announcement.

The arrival of the first test vehicle and the commissioning of Australia’s only hydrogen refueling station are pioneering steps toward the commercial availability of emissions-free hydrogen powered vehicles in Australia.

“We are taking a bold step into the future and we hope other Australians become as inspired and excited by this technology as we are,” said Hyundai Motor Company Australia CEO, Mr Charlie Kim.

“In February 2013, Hyundai Motor Company became the first automobile manufacturer in the world to begin mass-production of a hydrogen-powered vehicle – the ix35 Fuel Cell. The fact that we have brought one to Australia is testament to how important the Australian market is to Hyundai, and how seriously we take our environmental responsibility.

“Because of the way we build our ix35 Fuel Cells, Hyundai Australia has the ability to order these incredible cars in the same way as we order any new Hyundai cars. We hope to work with governments on all levels to make the technology more widespread,” Mr Kim added.

Hyundai has installed Australia’s only fuel cell vehicle Hydrogen Refueling Station (HRS) at its headquarters in Macquarie Park, Sydney, currently using hydrogen provided by gas partner Coregas Australia, but soon to be creating its own hydrogen onsite through the use of an electrolyser and harnessing solar power. The HRS, supplied by American company Air Products, is now fully operational. But while investment overseas will see hundreds of HRS’s built throughout Europe and North America in the next five years, there are currently no plans for a similar infrastructure in Australia

“We see no reason why Australians should not enjoy the same environmental solutions as consumers in other markets,” continued Mr Kim.

“Hyundai strongly supports the idea of a ‘Hydrogen Highway’ infrastructure roll out in Australia, like those already in operation overseas. We look forward to engaging in industry and partner discussions about ways to further motivate the adoption of hydrogen motoring in Australia and to offering some viable options to our Federal, State and local policy makers.”

Hyundai ix35 Fuel Cell
The Road to an Australian Hydrogen Highway

In Europe and the United States, ‘Hydrogen Highways’ have been built by government and private partnerships for use by FCEV’s like the ix35 Fuel Cell, along with other hydrogen-powered vehicles such as buses.

A number of the refueling stations generate their own hydrogen by using solar energy and electrolysers – this creates a ‘green’ transport solution, with neither the fuel generation process nor the hydrogen vehicles themselves emitting any harmful by-products or burning fossil fuels.

HMCA will soon install an electrolyser at its headquarters in Macquarie Park, along with a solar array to power both it and the refueller – this will make its HRS fully self-sustainable, with hydrogen made on-site.

Even small refuellers of this kind are relatively expensive and overseas experience shows that a larger network may require government support and incentives in the initial phase to make it economically viable. The challenge of creating and distributing hydrogen for mass vehicle is a significant one.

“We are not a political entity, nor are we aligned with any political party. However, we have seen in other countries that Governments play a crucial role in developing hydrogen refueling infrastructure,” said Mr Charlie Kim, Chief Executive Officer, Hyundai Motor Company Australia (HMCA).

“Our initial discussions with Federal Ministers about our hydrogen car have been met with a very positive reaction. The presence of the Federal Minister for Industry and Science at our official launch today is also a great indication of the desire to have a meaningful conversation about the technology and its potential. An industry working party will play an important part in helping to frame that conversation and suggest options for supporting policies.

“One of our ideas is the ‘Hume by Hydrogen’, which could link Australia’s two largest cities via the nation’s capital. It would require refueling stations in Melbourne, Sydney, Canberra, Goulburn and Albury and could see hydrogen vehicles, including buses, running on a busy highway emitting nothing but water vapour.

“A project like the ‘Hume by Hydrogen’ would demonstrate the benefits of hydrogen transport very effectively – we would like our ix35 Fuel Cell to start a meaningful conversation about this technology for the benefit of future generations,” said Mr Kim.

The ix35 Fuel Cell

The ix35 Fuel Cell is one of the most advanced cars in the world, running on hydrogen and emitting nothing but water vapour from its exhaust pipe.

Hydrogen from the vehicle’s fuel tank is mixed with air and converted to electricity by a fuel cell stack – the electricity then powers the ix35 Fuel Cell’s electric motor.

The vehicle is near-silent, efficient and emissions-free. It is also very safe, having passed the stringent American NHTSA crash test. It is as practical and useful as a standard petrol or diesel-powered ix35, with near-identical interior space and comparable range and performance.

The ix35 Fuel Cell develops 100kW of power and 300Nm of torque and has an official maximum range of 594km (see attached Q&A). A Hyundai ix35 Fuel Cell set a record in early July 2014 for the longest journey completed by a vehicle on a single tank of hydrogen, driving 700km through Norway, Sweden and Denmark.

Private customers are leasing ix35 Fuel Cell Vehicles in Los Angeles as part of an advanced hydrogen scheme, and many more ix35 Fuel Cells are operational throughout Europe. The delivery of Australia’s first FCEV marks a significant first step in the longer-term growth of a hydrogen fuel infrastructure in this country.

For more information about the ix35 Fuel Cell, please visit:

Q & A: the Hyundai ix35 Fuel Cell and hydrogen vehicle technology

Answers provided by Scott Nargar

Product Planning Manager

Hyundai Motor Company Australia

Q: How does the ix35 Fuel Cell work?

A: It is essentially an electric car, with the electricity supplied by a fuel cell stack. The clever part happens inside the fuel cell itself - in simple terms, hydrogen from the fuel tank is combined with air and passed through a membrane, which creates the electricity used to power the car’s electric motor.

This ix35 uses what’s known as a PEM Fuel Cell – PEM stands for Proton Exchange Membrane or Polymer Electrolyte Membrane. Here’s what happens:

· A fuel cell has two electrodes, an anode and a cathode, separated by a membrane.

· Oxygen passes over one electrode and hydrogen over the other.

· The hydrogen reacts to a catalyst on the electrode anode that converts the hydrogen gas into negatively-charged electrons (e-) and positively charged ions (H +).

· The electrons flow out of the cell to be used as electrical energy.

· The hydrogen ions move through the electrolyte membrane to the cathode electrode where they combine with oxygen to produce heat and water.

· The diagram below shows how the process works in the car:

 ix35-Fuel-Cell_3Q: Is the hydrogen fuel in the vehicle dangerous?

A: The ix35 Fuel Cell is designed to meet the strictest global vehicle safety standards, like all the safest cars do – over 30 of the vehicles have been crash-tested to verify its level of safety. It has passed the North American NHTSA test, one of the world’s toughest.

Many Hyundai ix35 Fuel Cell vehicles are now operational on public roads around the world, including California and countries throughout Europe. That is testament to their safety.

The car’s hydrogen tanks are constructed with steel and carbon composite wrap, enough to contain the gas at a maximum operating pressure of 700bar (10,000psi). The hydrogen tanks have had bullets fired at them, have been put into fire baths and subjected to other extreme tests like drop test, burst pressure and crash tests to verify their strength – fuel pressure is greatly reduced before it enters the vehicle’s fuel cell stack.

In short, the ix35 Fuel Cell is an extremely safe car.

It is also worth noting that Australia is quite advanced with the use of other gaseous fuels like LPG and CNG, so hydrogen gas technology – more advanced than LPG – should represent no great challenge for Australia in safety terms.

Q: What is the specification of Australia’s first Fuel Cell vehicle?

A: It is a left-hand-drive, European-specification ix35 Fuel Cell. This model is currently not made in right hand drive.

Q: Why is it not made in right hand drive?

A: Due to economies of scale: the vast bulk of these cars are now operating in left hand drive countries, including the USA, Canada, Denmark, Norway, Sweden and Germany. British road regulations are more relaxed around left hand drive vehicles than Australia’s, so British cars are also left hand drive until the next generation right hand drive FCEV that is due in 2018

Q: What is it like to drive?

A: Surprisingly quick – it develops maximum torque at zero revs and accelerates more rapidly than you’d expect. Some members of the Australian media drove this version of the ix35 Fuel Cell recently at Hyundai’s Namyang proving ground and during a 1000km hydrogen Highway drive in Germany. They were surprised by how ‘natural’ the car is to drive. Its drivetrain is almost silent, the same as any electric car.

Q: How fast is it?

A: The ix35 Fuel Cell accelerates from 0-100kmh in 12.5 seconds and its maximum speed is 160kmh. It is no racing car, but it’s certainly not slow. It’s like a normal car in most ways, but it is an electric vehicle so it makes no engine noise and has no gearbox.

Q: How long will it take to refuel?

A: With an advanced full-size 700bar (10,000PSI) refueller, like those used in Europe and America, fill time is about three to five minutes, the same as a normal petrol or diesel car.

The refueller we have installed at HMCA is a small 350bar (5,000PSI) compressor. Fill time is five minutes.

Q: What is the specification of HMCA’s hydrogen refueller?

A: It is a 350bar refueller made by Air Products and Chemicals, Inc. of Allentown, Pennsylvania.

We can provide full details of the unit if required. Note that refueling at 350bar instead of 700bar will mean our vehicle will have a range of approximately 300km – ample to demonstrate its capabilities.

Q: Does the refueller generate its own hydrogen?

A: Not yet. Initially it will use compressed hydrogen supplied by Coregas Australia in bottled form.

The hydrogen is made by natural gas reformation at Port Kembla NSW.

HMCA is planning to install an electrolyser unit next to the refueller to make hydrogen on-site, using water extracted from the atmosphere combined with solar power that has been installed on the roof of our building.

We will reveal details of this unit in good time. Meanwhile, the Air Products machine combined with Coregas-supplied hydrogen serves our purposes well.

Q: Why are you doing this? What is the long-term plan?

A: Although we are fascinated by the potential of a large-scale hydrogen transport network in Australia, we are – first and foremost – a vehicle manufacturer and an advocate of the technology.

We were first to mass-produce a hydrogen car and we will remain at the forefront of this technology. However, it is up to governments and other interested parties to plan and construct a hydrogen transport infrastructure for the future.

We at Hyundai think there is great potential for the future with hydrogen in Australia, but we cannot fund or plan infrastructure on our own. Overseas examples would seem to show the benefits clearly, and, as in other parts of the world, Hyundai will assist with partnerships in every way possible.

Over the past two years, we at Hyundai Australia have spoken with just about every major hydrogen infrastructure manufacturer in the world and studied hydrogen projects in California, Germany, the UK and Scandinavia.

In October last year we attended hydrogen infrastructure project meetings in Paris to learn how cooperative projects operate with the support of Governments, car makers and infrastructure manufacturers.

Could a ‘Hume by Hydrogen’ highway be built by 2020? Of course. The potential is there for hydrogen highways and for even more ambitious plans to power remote communities using solar and hydrogen technology – such schemes could include completely emissions-free transport built in, with the capability to use hydrogen to store energy for when it’s most needed.

Over the past two years, discussions have been held with global infrastructure manufacturers, with one even showing interest in manufacturing the hydrogen stations in Australia – a great way to create engineering and manufacturing jobs here.

Hyundai Motor Company Australia is committed to hydrogen technology, but it will only work if vehicle and infrastructure manufacturers work together with businesses and Governments to start planning for a greener future today.