Hydrogen from electrolysis is often described as the missing link in the energy transition.

Image: Roy Luck/Flickr

As the momentum is building behind hydrogen in Australia and abroad, the Queensland University of Technology (QUT) is leading the way in research and development with a range of initiatives on the ground. After it played a key role in Australia’s first green hydrogen shipment to Japan, QUT is now readying to drive the green hydrogen export industry through the Future Energy Exports Cooperative Research Centre (FEnEx CRC).

Officially established on Friday, the FEnEx CRC is a national collaboration of 28 industry, government, and research partners. As announced on Friday, the center won the backing of the Federal Government to the tune of $40 million, which builds upon a further $122 million in support from industry, state governments, and research organizations.

The CRC’s core mission is to ensure Australia’s LNG industry remains competitive, reduces its environmental footprint, and helps to grow hydrogen exports for new emerging markets. Its foundation project will be establishing the LNG Futures Facility, a 10 tonne-per-day research and teaching plant to be based at Kwinana, in Western Australia.

“FEnEx CRC will undertake cutting-edge, industry-led research, education and training to help sustain Australia’s position as a leading LNG exporter, and enable it to become the leading global exporter of clean hydrogen,” Professor Eric May, UWA’s Chevron Chair in Gas Process Engineering and FEnEx CRC Acting CEO, said. “Our established LNG sector is a key advantage in the race to grow a hydrogen export industry because of the similar workforce skills, engineering standards, shipping routes, and business relationships.”

But while Professor May has spoken about “clean” hydrogen, there has been no indication that this hydrogen will be truly clean and produced by electrolysis using solar or wind electricity. He said the CRC would support Australia’s National Hydrogen Strategy, which remains “technology-neutral”, with both hydrogen produced using renewable energy and the one via fossil fuels with “substantial” carbon capture and storage (CCS) in the game.

Throughout the consultation process last year, Chief Scientist Alan Finkel continued to push Australia toward hydrogen produced by solar and wind, but also remained attached to the fossil fuel-CSS idea. The stance was reflected in the Strategy itself.

Green hydrogen push

Nonetheless, Professor Ian Mackinnon, from QUT’s Institute for Future Environments, said FEnEx would build on the extensive work QUT had already done in the green hydrogen sphere, including partnering with Japanese company JXTG to produce and export green hydrogen to Japan and leading a $7.5 million research project to establish a renewable energy pilot plant producing green hydrogen at the Redlands Research Facility. This latter project is supported by four universities, Japanese and Australian corporations, the Queensland Government and the Commonwealth agency, ARENA.

“The FEnEx CRC is an excellent opportunity to translate the skills from one industry, and to build another export industry in the world of green hydrogen storage and utilization,” Professor Mackinnon said. As part of the FEnEx CRC, QUT’s Professor Mackinnon and Professor Anthony O’Mullane will be working on research projects involving the hydrogen export and value chains.

“This complements QUT’s activities in developing a renewable energy facility at Redlands to power the production of hydrogen using various electrolyser technologies,” Professor O’Mullane said. “This program will enable the next generation of scientists and engineers with the key skills for the transition to renewable power generation, storage, transport and utilisation. This CRC will accelerate efforts in the development of cheaper, more stable catalysts for rapid deployment in commercial scale electrolysers to produce green hydrogen.”

Another QUT professor, Rachel Parker will lead the Market Development Program in the FEnEx CRC, which will aim to identify the strongest global market opportunities for the development of Australia’s future energy exports. “The market development program will identify the business and social drivers and barriers to the adoption of technologies developed through the other CRC programs and will maximise the market and social benefits from the rapidly changing technological and industrial context of energy,” she said.

The Australian Renewable Energy Agency (ARENA) has announced a $1.25 million (US$807,495) grant to Queensland government-owned electricity generator Stanwell Corp. to assist a feasibility study for a renewable hydrogen demonstration plant, which will be located next to the company’s existing power station near Rockhampton. Stanwell’s $5 million study, which started in July 2019, is investigating the technical and economic feasibility of hydrogen electrolysis projects above 10 MW in size. If built, it will be the largest green hydrogen electrolysis plant in Australia.

To offset 100% of the emissions associated with running the electrolyzer, Stanwell will procure energy and green certificates from renewable energy projects in the region. This will be yet another innovative deal for the publicly owned generator, following last year’s network support agreement between Stanwell’s Kareeya Hydro Power Station and Pacific Hydro’s 100 MW Haughton Solar Farm. Under that deal, the services provided by Kareeya will strengthen the regional grid, which is subject to lower system-strength levels, to operate the solar project in line with generator performance standards.

A key outcome of the study will be to define the most valuable end use for renewable hydrogen. The utility-scale electrolyzer will enjoy the advantages of the existing power station to use pre-existing land approvals, network connections, and access to demineralized water, which is required for hydrogen production.

The project could demonstrate the role that renewable hydrogen production can play in an electricity system. In particular, the hydrogen electrolyzer could be used as a complementary energy market load that can ramp up in times of excess energy supply, such as peak solar output during the day. It could also aid system security through participation in Frequency Control Ancillary Services (FCAS) markets or future markets such as Fast Frequency Response (FFR).

“Through Stanwell’s feasibility study we’re showing a new option for producing and using renewable hydrogen. This will create opportunities across the domestic economy and help to position Australia to become a major renewable energy exporter,” ARENA CEO Darren Miller said. The ongoing study is expected to be completed later this year.

The hydrogen industry in its infancy in Australia, but the study will determine the optimal conditions for electrolyzers operating at high capacities. “The construction and operation of a utility-scale electrolyzer is important to demonstrate the costs associated with producing renewable hydrogen at scale,” Miller said. “If feasible, this could help underpin future commercial scale deployments leveraging existing network infrastructure at other power stations, and play a role in driving down the cost of domestic hydrogen production.”

ARENA has committed approximately $50 million towards hydrogen initiatives so far, including more than $22 million to R&D projects, and almost $28 million to demonstration, feasibility and pilot projects. In some of its earlier Queensland initiatives, ARENA announced it was providing $2.9 million in funding to two studies looking at the potential to use solar and wind-powered hydrogen produced via electrolysis to increase ammonia production at facilities which currently rely on gas as feedstock.

Schedule a call with us to see how Green Hydrogen could work for your facility:

This article originally appeared on pv-magazine-usa.com, and has been republished with permission by pv magazine (www.pv-magazine.com and www.pv-magazine-usa.com).

Image: Warren Entsch MP

In May 2019, a federal government grant of $990,150 backed Daintree Renewable Energy Pty Ltd toward a feasibility study that would take the fully renewable solar baseload-power microgrid to ‘shovel ready’ status within 12 months. If what Federal MP Warren Entsch has said is true, construction on the project should be underway in a matter of months. 

“Work commenced in early December 2019,” said Entsch, “and will be finalised in July 2020…The final report will include a complete series of engineering and technical design packages including a detailed energy load profile study, microgrid management design, solar generation and storage analysis and design, electrical and civil work designs and microgrid economic analysis.” 

Because the Daintree is a World Heritage Protected Rainforest there are heavy restrictions on planning and development. Because of this, Entsch has also quashed the rumour that further development in the region was on the cards. The microgrid project is it, and, Entsch assures us, it “is being designed to align with the strict planning regime and accommodate energy requirements for existing population and businesses.” 

The proposed microgrid would reduce the Daintree area’s reliance on diesel dramatically. Currently, the region relies on four million litres of diesel fuel per year to generate power. 

Volt Advisory Group project manager Richard Schoenemann said work on the project was “actually” slightly ahead of schedule. “It will remove the need to burn dirty and inefficient diesel in the Daintree,” said Schoenemann, “allowing customers to have access to a cleaner, more affordable, more reliable source of energy.” 

“But more importantly,” Schonemann stressed, “once the concept is demonstrated and up-and-running it will have enormous potential to improve the power supply and lives of people living in remote communities including throughout the Torres Strait.” 

Like many remote island communities, Torres Strait Islanders would greatly benefit from the sustainable renewable energy supplied by solar based microgrids.

The federal government grant forms part of its $50.4 million Regional and Remote Communities Reliability Fund, part of the Morrison Government’s $2 billion Climate Solutions Fund. You may remember the Climate Solutions Fund as the pitiful federal effort toward the nation’s Paris targets that was supposed to be a 10-year investment plan but has already been pushed to 15 years, cutting the investment by 30%.  

Under the scheme, the Coalition government plans to support exploratory work for up to 50 off-grid and fringe-of-grid feasibility studies, and take proposals like the Daintree region project to the investment stage.

At the Friday meeting in Perth, the COAG Energy Council agreed to the National Hydrogen Strategy, which is expected to pave the way for a hydrogen economy that would enhance Australia’s energy security, create jobs and build an export industry valued in billions. The federal government used the meeting to announce $370 million would be directed to a new fund aimed at developing Australia’s hydrogen industry.

The money to bankroll green hydrogen projects will come from existing allocations to the Clean Energy Finance Corporation (CEFC) and Australian Renewable Energy Agency (ARENA), with the former tipping in $300 million and the latter $70 million. According to Energy Minister Angus Taylor, the funding will help Australia to realise its potential as a leading hydrogen supplier to key export markets, particularly in Asia.

Despite positive aspects, the National Hydrogen Strategy remains “technology-neutral”, with both hydrogen produced using renewable energy and the one via fossil fuels with “substantial” carbon capture and storage (CCS) in the game. Throughout the consultation process, Australia’s Chief Scientist Alan Finkel continued to push Australia toward hydrogen produced by solar and wind, but also remained attached to the fossil fuel-CSS idea. The stance was reflected in the Strategy itself.

Notwithstanding the efforts by ACT Energy Minister Shane Rattenbury on Friday to change the strategy so it only supported green hydrogen, federal resources minister Matt Canavan said after the meeting the government would be encouraging all forms of hydrogen creation, including production using brown coal.

“A decade ago the fossil fuel industry promoted clean coal using CCS and now it is promoting hydrogen using the same unsuccessful technology. CCS projects have repeatedly failed to live up to promises, both domestically and globally, and missed their targets by a very large margin time and time again,” Merzanin said. “The only way to make hydrogen truly sustainable is to produce it using water and powered by renewable energy sources. Australia has time to establish and lead a global renewable hydrogen industry and should focus research and development efforts in that area exclusively.”

This article originally appeared on pv-magazine-australia.com and has been republished with permission by pv magazine (www.pv-magazine.com and www.pv-magazine-australia.com