A chemicals technology firm in Belgium recently launched its vision for using green ammonia for "energy harvesting." The Dualtower is a new kind of wind turbine, under development by Arranged BVBA, that will use wind power to produce and also store hydrogen and nitrogen. These gases are "harvested" as ammonia, which becomes the energy carrier that allows large-scale renewable energy to be transported economically from remote locations with excellent renewable resources to centers of power consumption.
Arranged's Dualtower is ambitious and, perhaps, futuristic but it illustrates three powerful concepts. First, the vast untapped scalability of renewable power. Second, the benefits of using ammonia as an energy carrier, to improve the economics of large-scale, long-distance energy transportation relative to every other low-carbon technology. The third concept is simply that every idea has its time, and now may be the time for ammonia energy. What was once futuristic, now just makes sense.
This week, the government of South Australia announced a "globally-significant demonstrator project," to be built by the hydrogen infrastructure company Hydrogen Utility (H2U). The renewable hydrogen power plant will cost AUD$117.5 million ($95 million USD), and will be built by ThyssenKrupp Industrial Solutions with construction beginning in 2019.
The plant will comprise a 15 MW electrolyzer system, to produce the hydrogen, and two technologies for converting the hydrogen back into electricity: a 10MW gas turbine and 5MW fuel cell. The plant will also include a small but significant ammonia plant, making it "among the first ever commercial facilities to produce distributed ammonia from intermittent renewable resources."
This morning in Beijing, China, the International Energy Agency (IEA) launched a major new report with a compelling vision for ammonia's role as a "hydrogen-rich chemical" in a low-carbon economy.
Green ammonia would be used by industry "as feedstock, process agent, and fuel," and its production from electrolytic hydrogen would spur the commercial deployment of "several terawatts" of new renewable power. These terawatts would be for industrial markets, additional to all prior estimates of renewable deployment required to serve electricity markets. At this scale, renewable ammonia would, by merit of its ease of storage and transport, enable renewable energy trading across continents.
The IEA's report, Renewable Energy for Industry, will be highlighted later this month at the COP23 in Bonn, Germany, and is available now from the IEA's website.
Yara, the world's biggest producer of ammonia, has announced that it intends to build a demonstration plant to produce ammonia using solar power, near its existing world-scale plant in the Pilbara, in Western Australia.
It expects to complete the feasibility study this year. Next year, in 2018, Yara hopes to finish the engineering design and begin construction so that it can complete the project and begin production of carbon-free ammonia in 2019.