In the last 12 months ... Consider the attributes that characterize a good hydrogen carrier: liquid state at ambient conditions; high volumetric and gravimetric energy density; low propensity to create lethal hazards when transported, stored, and used. Now consider that ammonia is superior to hydrogen itself in every one of these areas. Given this, it stands to reason that proponents of hydrogen fuel cells should embrace ammonia as a valuable enabling technology that can elevate the feasibility and improve the economics of fuel-cell-based systems. And indeed this embrace became evident over the last year.
September 10–14 gave us five remarkable events both evidencing and advancing the rise of hydrogen in transportation and energy. Any one of them would have made it a significant week; together they make a sea change.
On August 8th Australia’s Commonwealth Scientific and Industrial Research Organization (CSIRO) gave a public demonstration of its newly developed ammonia-to-hydrogen fueling technology. In an interview this week with Ammonia Energy, Principal Research Scientist Michael Dolan reported that the demonstration drew more media attention than any event in CSIRO’s history – “by a comfortable margin.” The reporting sounded a set of celebratory themes, summed up by this headline from the Australian Broadcasting Corporation: Hydrogen fuel breakthrough in Queensland could fire up massive new export market. The stories, in other words, focused on what the demonstration could mean for fuel cell vehicles (FCVs) and the Australian economy. They did not penetrate to the heart of the matter which involved a practical development whose importance can be uniquely appreciated by the ammonia energy community.
Where will fuel cell vehicles (FCVs) first achieve critical mass? Japan and California spring to mind as likely jurisdictions. South Korea not so much. That situation could change, though, with recent announcements from the Ministry of Trade, Industry, and Energy (MTIE) in Seoul. In fact, planned public and private sector investments could push South Korea to the front of the FCV pack.
But while hydrogen-related activity of this nature can create opportunities for ammonia energy, the question always looms: are the key players in the implementing jurisdiction aware of the enabling roles ammonia can play? Hyundai is unquestionably a key player in South Korea’s FCV landscape, and, courtesy of its support for the Australian ammonia-to-hydrogen fueling demonstration that will kick off in August, Hyundai is certainly aware, and could even become a champion, of ammonia-based FCV fueling.
In Australia this week, CSIRO announced funding for the "final stages of development" of its metal membrane technology to produce high-purity hydrogen from ammonia. The two year research project aims to get the technology "ready for commercial deployment," with industrial partners including Toyota and Hyundai.
This week, at the World Economic Forum in Davos, the leaders of 13 global companies, representing more than EUR 1 trillion in annual revenues, announced the launch of the Hydrogen Council.
This new global initiative is important for obvious reasons: it presents a compelling "united vision and long-term ambition" for hydrogen, it promises global engagement with "key stakeholders such as policy makers, business and hydrogen players, international agencies and civil society," and it pledges financial commitments to RD&D totaling EUR 10 billion over the next five years.
It is important for a subtler reason too: it is the first hydrogen industry promotion I've seen that includes ammonia. It includes ammonia both implicitly, encompassing "hydrogen and its compounds," and explicitly, listing ammonia as a "renewable fuel" in its own right.