In mid-June the Dutch naval architecture firm C-Job released "Safe and effective application of ammonia as a marine fuel," a thesis written by the firm’s Lead Naval Architect Niels de Vries for the Marine Technology Master of Science program at the Delft University of Technology in the Netherlands. While the thesis delivers an extensive assessment of ammonia's potential effectiveness as a marine fuel, it breaks new ground in its consideration of ammonia's safety in this context.
In the last 12 months ...
The International Maritime Organization issued its Initial GHG Strategy, committing the global shipping industry to emission reductions that cannot be achieved with carbon-based fuels. This single action is the regulatory trigger that unleashes a three-decade transition to carbon-free liquid fuels like ammonia. The target date for this 50% reduction in emissions is 2050 but, given the long economic life of ocean vessels, the transition must begin immediately.
Last week, I wrote about a crucial new report that discusses four fuel technologies: batteries, hydrogen, ammonia, and nuclear. These could reduce the shipping sector's emissions in line with targets set in the IMO's Initial GHG Strategy. The report, Reducing CO2 Emissions to Zero, concludes that "all industry stakeholders ... need to get on with the job of developing zero CO2 fuels." This call to action should be consequential: it comes from the International Chamber of Shipping, an influential industry group that represents "more than 80% of the world merchant fleet."
This week, I provide an example of the kind of research required, with an update on a project that aims to demonstrate "the technical feasibility and cost effectiveness of an ammonia tanker fueled by its own cargo."
Although this project is still in its early days, I want to highlight three aspects that I believe will be crucial to its success. First, the work is being done by a consortium, bringing together many industry stakeholders, each with its own expertise and commercial interests. Second, the scope of research extends beyond conventional engine configurations to include not just new fuels but also new technology combinations; in other words, rather than assess new fuels in old engines, it aims to develop optimized propulsion designs for zero-emission fuels. And, third, its consideration of ammonia as a fuel begins with a comprehensive safety analysis.
Last month, an important new consortium in the Netherlands announced its intention to research and demonstrate "the technical feasibility and cost effectiveness of an ammonia tanker fuelled by its own cargo." This two-year project will begin with theoretical and laboratory studies, and it will conclude with a pilot-scale demonstration of zero-emission marine propulsion using ammonia fuel in either an internal combustion engine or a fuel cell.
The second annual European Conference on Sustainable Ammonia Solutions has announced its full program, spread over two days, May 17 and 18, 2018, at Rotterdam Zoo in the Netherlands. The international cadre of speakers, representing a dozen countries from across Europe as well as the US, Canada, Israel, and Japan, will describe global developments in ammonia energy from the perspectives of industry, academia, and government agencies.
In the last 12 months ...
The maritime industry has begun assessing ammonia as a carbon-free fuel, for internal combustion engines and fuel cells. This marks the first time since the 1960s, when NASA used ammonia to fuel the X-15 rocket plane, that industry players have seriously considered ammonia for transport applications.
The maritime industry is beginning to show significant interest in using ammonia as a "bunker fuel," a sustainable alternative to the highly polluting heavy fuel oil (HFO) currently used in ships across the world.
In recent months, a firm of naval architects and a new maritime think tank have both been evaluating ammonia as a fuel. This includes a road map for future research, and collaborations for a demonstration project that will allow them to design and build a freight ship "Powered by NH3."