During the 2023 GREEN4SEA Athens Forum, Dr. John Kokarakis, Technical Director Southeast Europe, Black Sea & Adriatic (SEEBA) Zone at Bureau Veritas, noted that ammonia will be more utilized as a carrier of hydrogen in a future hydrogen ecosystem.
Currently, the global fleet requires around 300 million tons of heavy fuel oil. According to the energy ratio, if the entire fleet burned ammonia, it would require 645 million tons of fuel solely for shipping. Given that ammonia is largely utilized in fertilizers, worldwide ammonia production should be four times higher.
Production
Ammonia is produced using the Haber–Bosch method. It’s a very energy-intensive process with high pressure, high temperature, and a need for catalysts. Alternatively, biogenic methods can be used such as ammonia from biochemical production by photosynthesis of cyanobacterium anabaena azollae.
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Chemical properties and emissions
Ammonia can be used in a variety of energy converters, including fuel cells, steam and gas turbines, and internal combustion engines. However, it’s a fuel that doesn’t burn easily which means that its combustion needs to be enhanced. This can be achieved by:
Mixing (doping) ammonia with hydrogen. However, caution needs to be exercised when using this method as hydrogen is explosive, especially in compression ignition engines.
Swirl stabilization burners
Stratified combustion
Ammonia doesn’t contain carbon, yet it still needs carbonaceous pilot fuels to burn. The proportion of pilot fuel increases to 30% when applied to the higher-speed four-stroke engines. Ammonia has more CO2 emissions than methanol when we look at well-to-wake emissions when it is produced from fossil fuels. Additionally, its emissions include nitrous oxide (laughing gas), a greenhouse gas that is 300 times more harmful than CO2.
Since ammonia contains itrogen, NOx will inevitably be present in the exhaust gases. As a result, it is necessary to add abatement equipment like a Selective Catalytic Reactor (SCR). Furthermore, specialized scrubbers with carbenes could be utilized to reduce laughing gas emissions.
Design aspects
The design aspects that need to be considered are:
Risk assessment as there are no prescriptive rules
Diffusion analysis following leakages. Ammonia is very toxic and thus its use as fuel is forbidden by the IGC code.
Detection and management of NH3 leakage
Management of NH3 spillage/vapors
Control of ammonia discharge to the sea
Material selection (including elastomers)
Containment system
Engines (which are not yet available) and Fuel Supply Systems
Fuel supply system
Because ammonia and LPG have close thermodynamic relation, an ammonia fuel supply system is highly comparable to that of LPG.
Source: Dr. Kokarakis’ presentation, GREEN4SEA Athens Forum 2023
Why use ammonia?
Ammonia is the best carrier for hydogen
There is handling experience because it’s being used as fertilizer
It’s mildly cryogenic (boiling point equal to -33o degrees Celsius)
Its energy density is comparable to methanol.
Its production is mature
There is a well-established transport and storage infrastructure
No carbon emissions
Ammonia can be produced with renewable energy as source of electricity
Relatively low flammability
Lower boil-off rate
Why not use ammonia?
Ammonia is highly toxic.
It causes stress corrosion cracking to plastics, metals, and elastomers so materials need to be chosen carefully
Ammonia emits laughing gas
It has a high solubility in water and high autoignition temperature.
There is a high-cost gap between green/grey ammonia
Production must be quadrupled in order to suffice for the fleet
Bunkering must be developed
Its production is energy-intensive
Public acceptance is needed
IMO IGC Code forbids its use as a fuel
To use ammonia, the crew should be trained adequately in how to handle ammonia safey. Furthermore, currently, ammonia is very expensive. Hopefully, the price will be reduced by the increase in scale. The cost of the required electricity will also affect the price. Yet, using clean, safe nuclear energy can lower electricity bills.
SWOT (Strengths, Weaknesses, Opportunities, and Threats) Analysis
Source: Dr. Kokarakis’ presentation, GREEN4SEA Athens Forum 2023
Ammonia’s Pathway to Maturity
As promulgated by the engine makers, ammonia as a fuel will probably reach maturity around 2035. The first step for ammonia to reach maturity is that port production should facilitate transportation. In addition, green hydrogen must be produced from renewable electricity.
In the presenter’s opinion, ammonia is unlikely to become the dominant fuel of the future. It will be present but more as a hydrogen carrier. Hydrogen is the mother of all fuels.
The above article has been edited from Dr. John Kokarakis’ presentation during the 2023 GREEN4SEA Athens Forum.
Explore more by wathing his video presentation here below
The views presented are only those of the author and do not necessarily reflect those of SAFETY4SEA and are for information sharing and discussion purposes only.