Producing fertilizer from air could be five times as efficient

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mark.brouwer
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Producing fertilizer from air could be five times as efficient

Post by mark.brouwer » Sat Aug 26, 2017 6:40 pm

glidingarc_200.jpg
African farmers who are able to produce their own fertilizer from only air. Bhaskar S. Patil brings this prospect closer with a revolutionary reactor that coverts nitrogen from the atmosphere into NOx, the raw material for fertilizer. His method, in theory, is up to five times as efficient as existing processes, enabling farms to have a small-scale installation without the need for a big investment. He did receive his doctorate on 10 May at Eindhoven University of Technology (TU/e).

The production of one of the key raw materials for fertilizer, ammonia (NH3) or nitrogen oxide (NOx), is a very energy-intensive process that is responsible for about 2% of all global CO2 emissions. However, it is hardly possible any longer to cut the energy consumption via current production processes since the theoretically minimal feasible energy consumption has already been more or less reached.

Two types of reactor
So the Indian PhD candidate Patil sought alternative methods to produce ammonia and nitrogen oxides for his PhD research, building two types of reactor, the Gliding Arc (GA) reactor and the Dielectric Barrier Discharge (DBD) reactor. In his experiments the GA reactor in particular appeared to be the most suited to producing nitrogen oxides. In this reactor, under atmospheric pressure, a plasma-front (a kind of mini lightning bolt) glides between two diverging metal surfaces, starting with a small opening (2 mm) to a width of 5 centimeters. This expansion causes the plasma to cool to room temperature. During the trajectory of the 'lightning', the nitrogen (N2) and oxygen (O2) molecules react in the immediate vicinity of the lightning front to nitrogen oxides (NO and NO2).

Africa
Patil optimized this reactor and at a volume of 6 liters per minute managed to achieve an energy consumption level of 2.8 MJ/mole, quite an improvement on the commercially developed methods that use approximately 0.5 MJ/mole. With the theoretical minimum of Patil's reactor, however, being that much lower (0.1 MJ/mole), in the long term this plasma technique could be an energy-efficient alternative to the current energy-devouring ammonia and nitrate production. An added benefit is that Patil's method requires no extra raw materials and production can be generated on a small scale using renewable energy, making his technique ideally suited for application in remote areas that have no access to power grids, such as parts of Africa, for instance.

Stimulating growth of plants
The German Evonik Industries, who was involved in this research project, is right now working on the further development of the reactor. In addition, another PhD student at TU/e has begun elaborating this technology into a concrete business cases. Apart from use at remote farms, this technique can also be used to stimulate the growth of plants in greenhouses and to store sustainable energy in liquid fuels.

Read more at: https://phys.org/news/2017-05-fertilize ... t.html#jCp
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Stephbaker
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Re: Producing fertilizer from air could be five times as efficient

Post by Stephbaker » Tue Dec 18, 2018 7:20 am

This is so well-written! Thanks for pitching such an idea. I think this might be very useful for us as a scientist to get fertilizers and reduce pollution in their production. Thank you. I'll definitely read the link given by you

MJA
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Re: Producing fertilizer from air could be five times as efficient

Post by MJA » Tue Jan 01, 2019 6:53 pm

Thanks for sharing the latest research.

But we could not understand that how is it possible to convert NOx to NH3 without involvement of Hydrogen.
I our opinion, this idea is about to produce NOx from air not complete fertilizer.

Can any one elaborate?

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