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Canada and Germany signed a memorandum of understanding on Monday for the future sale of hydrogen produced from proposed projects in Atlantic Canada.
The agreement signed in the northern German city of Hamburg by federal Energy Minister Jonathan Wilkinson and German Vice-Chancellor Robert Habeck is aimed at securing early access to the German market for Canadian hydrogen producers.
“Hydrogen represents a multi-billion-dollar opportunity for Atlantic Canada,” Wilkinson told reporters during a conference call from Hamburg. “These actions underline that Canada intends to be a key supplier to provide Germany and Europe with the clean energy it needs to achieve its climate and energy security goals.”
The minister said the agreement builds on the Canada-Germany Hydrogen Alliance that was signed in Stephenville, N.L., in August 2022, with the intention of permitting the export of Canadian hydrogen by 2025. That alliance was signed several months after Russia invaded Ukraine, which forced German leaders to rethink their energy dependence on Russia and search for new sources of cleaner fuel.
As things stand, World Energy GH2’s proposed wind-to-hydrogen project on Newfoundland’s Port au Port Peninsula is awaiting approval under a provincial environmental assessment. In Nova Scotia, EverWind Fuels and Bear Head Energy have plans, which have received provincial approval, for hydrogen plants in Point Tupper.
The projects in both provinces would use wind power to create hydrogen and ammonia. That ammonia would be shipped to Germany, where it can be used as fuel to replace natural gas, or converted back into hydrogen.
The new agreement commits both countries to finalize terms and conditions for an early access trade window no later than June 30. Wilkinson said the goal is to eventually run hydrogen auctions that will establish the price.
“In the next 90 days we are trying to establish greater certainty around the price … which should then lead to deals that will actually allow the projects to begin to move forward rapidly,” he said.
Wilkinson said the steps announced Monday are needed to meet Germany's plans in 2025 to begin converting its industry to run on hydrogen — yet no facilities in Canada have been built yet.
“Canada wants to make sure it is leading the way and benefiting from an economic perspective,” he said.
The minister added that the agreement will not undermine Newfoundland and Labrador’s environmental assessment protocols nor the federal environmental process for offshore wind projects, which would help supply some of the energy.
“This does not in any way mean that projects get a free pass on that,” he said.
Wilkinson was joined in Germany by John Horgan, who is Canada's ambassador to Germany, along with Indigenous and industry leaders.
Newfoundland and Labrador Premier Andrew Furey and Nova Scotia’s Tim Houston did not make the trip, although Houston had originally been scheduled to go.
Houston told reporters at the provincial legislature that he decided over the weekend against travelling because of labour disputes that have resulted in roaming strikes at various airports in Europe.
“I was just worried about the ability to get back,” he said.
This report by The Canadian Press was first published March 18, 2024.
Comments
"That ammonia would be shipped to Germany, where it can be used as fuel to replace natural gas, or converted back into hydrogen." I suspect a lot of operational subsidies will be required on both sides of the Atlantic to make the economics work. That is especially true when it comes to the economics of producing green hydrogen to produce ammonia (or liquefied hydrogen) to produce hydrogen in Germany. Actual battery technology and electricity-based heating (e.g. heat pumps) will continue to beat out hydrogen fantasies.
Pretty much. It looks like there's a role for hydrogen in steelmaking for some reason, and that's a very big industry responsible for a LOT of emissions, so that's good. And there might be a role for ammonia or maybe hydrogen in shipping? And there might be a role for hydrogen in energy storage--but only locally at the point of electricity generation, not shipping it around. You have your solar/wind farm, right, and its output is more than currently required, and you put it towards making hydrogen which you store on site so you don't need lots of leaky pipelines or big tanker ships, and then at night or when the wind isn't blowing you burn that hydrogen for electricity. That might be workable.
But that's about it--land transportation, nearly all industry, heating buildings and so on, I see no role for hydrogen, it's just an inefficient technology that is only seeing much notice because fossil fuel companies want to make it out of methane and emit just as much CO2 as ever.