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Ralf Lippold

Sep 5, 2017
03:49

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Dear SantiaagoGaj, 

Your proposal sounds thrilling and bold at the same time. Despite the technical complexity something to take further especially as additive manufacturing is scaling in its applications and use of materials. 

Some points that come to mind in this context:

  1.  Authentise, a start-up that is focused to bring additive manufacturing forward through bringing together relevant players/technologies
  2. Singularity University (eventually, consider applying for their Global Solutions Program next year)
  3. Fraunhofer's (a German applied research society) activity on additive manufacturing (touching your proposal), their headquarter in this activity is based in Dresden (where I happen to live ;-) )

 

I wish you great success along this competition. Keep on the great work!

Ralf 


Aadhithya Sujith

Sep 9, 2017
10:40

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Hi SantiaagoGaj,

Your idea is interesting & innovative.

  • How much greenhouse gas emissions can it bring?
  • Do you think a similar technology can do the same with carbon dioxide and other major greenhouse gases, from your proposal I see that the technology can work with Nitrous oxide and can be helpful in purifying air only?

 

Thanks & regards

Aadhithya


Santiago Garcia

Sep 11, 2017
01:55

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Hello Ralf Lippold!

Thank you for your great comments and suggestions! I am definitely planning to apply to the GSP from SU. Like this idea I have a couple more that involve 3D printing, Urban Development and Sustainability. I believe that 3D printing is will soon make synergy with AI and Robotics to manufacture incredible, sustainable, and high quality products. I will get in touch with Authentise and Fraunhofer´s to get a piece of advice about my project, and perhaps work together with them :) Thank you!

Hello Aadhithya Sujith!

1. According to some more research I did. Any NOx molecule gas can be completely broken with good light conditions. "...As soon as the light is put on, the concentration drops with approximately 40%. After 5 hours of illumination, the NO is cut off for 30 min..."
http://citeseerx.ist.psu.edu/viewdoc/download;jsessionid=1106434B63C843CE66C58D3FC0D81520?doi=10.1.1.183.2458&rep=rep1&type=pdf

2. Indeed. TiO2 works specifically with Nitrous oxide. I´m sure there are other pohotcatalysts that would break down other greenhouse gases. The key factor is the price of the material. Currently TiO2 is cheap enough to make this happen without having a huge investment.

By having a wide range of materials available, if a city has a mayor concentration of Ozone or CO2 or other gas, then a specific material could be used in the facade instead of TiO2 to help lower the ppm of a specific gas.
This could also be applied to factories. If the exhaust chimney is examined to obtain the most hazardous material or most abundant, then the chimney could have some kind of covering to reduce certain kind of emissions.

Remember that once the molecule is broken apart, there will be some kind of residue (dust) that needs to be washed away every once in a while by men or by rain.

Regards!