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Distributed Ammonia Synthesis

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If you have a question about this talk, please contact Dr Chris Ness.

We are running a small-scale ammonia synthesis plant powered by wind energy. This is a major departure, because ammonia is currently made with energy from fossil fuels, especially natural gas. In contrast, the wind energy used here is sustainable but stranded, far from urban population centers but near locations of ammonia fertilizer demand. The wind energy is converted to electricity, which in turn is used for pressure swing absorption of air to make nitrogen, and for electrolysis of water to make hydrogen. Nitrogen and hydrogen are combined in a Haber process 30,000 times smaller than conventional to synthesize ammonia. Because of the plant’s small size and large capital, the ammonia made from wind costs about twice as much as that made from fossil fuels.

To reduce this capital, we are making the ammonia with a conventional catalyst but an absorption using ammines. The rate limiting step can now be not the chemical kinetics or ammonia condensation, but the speed of the pump recycling the unreacted gases. The absorbents, which originally had a capacity of one percent stoichiometric and a regeneration time of six hours, now have a capacity of over 50% stoichiometric and a regeneration time of fifteen minutes. Because the operating pressure drops from 130 to 20 bar, the cost for the process is reduced.

Our studies explore the feasibility of this small process to harvest stranded energy. The ammonia produced can either be used in rural areas as a fertilizer or shipped to urban areas as a hydrogen carrier for fuel cells. Whether it is successful in practice is not yet known.

This talk is part of the CEB Postdocs Lunchtime Seminar Series series.

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