Finding fertile ground in space
In-space manufacturing鈥檚 potential has the whole world talking.
With the 成人大片鈥檚 assistance, optical fibre production has already taken the first step, and in coming years numerous other industries are expected to enter orbit. Among these is agricultural fertiliser; here again, Adelaide-led research is paving the way.
A team from the University is using cutting-edge plasma technology to radically transform and intensify the production of ammonia, fertiliser鈥檚 main ingredient. The process is wastefree, circular, highly streamlined, efficient and scalable, so could one day even be used to make fertiliser in space. This would help meet crewed spaceflight鈥檚 requirement for autonomous operation by boosting astronauts鈥 capacity to grow their own food.
Adding to the promise, it could also enable manufacturers to readily customise fertiliser to local environmental conditions. Known as SCOPE, which stands for Surface-COnfined fast-modulated Plasma for process and Energy intensification in small molecules conversion, the project represents a significant advance over traditional ammonia production methods.
鈥淲e鈥檙e generating the targeted creation of unstable molecules or atoms during reactions between plasma鈥攁 gas-like substance, consisting of particles such as positive ions and electrons鈥攁nd proprietary catalysts,鈥 says project leader, Environment Institute member, Professor .
鈥淭hese plasma-chemical reactions are fundamental to efficient fertiliser production, produce no waste, and intensively produce fertiliser that can be 鈥榯ailored鈥 for specific environments.鈥
Hessel and his team have set up a process simulation study in South Australia to further refine and intensify, on a large scale, the first step of the ground-breaking three-stage processing technique: decomposing bio-methane, obtained from animal manure, into hydrogen and carbon by heating it with solar-powered plasma energy to 2,000oC. This high-temperature aspect of the process is owned by US energy company Monolith Materials and was initially developed by MINES ParisTech university. Subsequently, hydrogen will be reacted with nitrogen in air to produce ammonia in a low-temperature plasma process, using original 成人大片 technology. Then finally, the ammonia will be reacted with nitrate, or other chemicals, to produce fertiliser.
鈥淯nlike existing large-scale fertiliser production plants,鈥 Hessel adds, 鈥渢his technology will enable the creation of production facilities small enough to fit on the back of a truck. Farms鈥攐r space travellers鈥攃ould have their own 鈥榩lant鈥 right on-site.鈥 The ability to tailor output, he adds, will come through the addition of artificial intelligence (AI). 鈥淪COPE could further enhance the possibility of autonomous farms by integrating new capabilities into bespoke agricultural technology solutions. AI could be employed, for instance, to tailor fertiliser according to local weather, soil and other characteristics to increase crop yields.鈥
Enabling local self-sufficiency in this way will only be more relevant in a post-COVID-19 world, as it eliminates dependence on complicated and easily disrupted supply chains. But it鈥檚 the off-Earth possibilities that most fire the imagination.
鈥淯sing abundant renewable energy from the sun, this self-sufficient technology could actually make growing crops on Mars a real possibility. Not too long ago that was science fiction.鈥
Published in the 成人大片's inSight Magazine.
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