Selected

TechnoCarbon

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'Team points' are awarded according to the adequacy of the solution with the type of innovations sought by Team for the Planet. They correspond to the analysis of several factors :

  • impact potential: impact average score > 4 => 0,5 point / if > 4,15 => 1 point.
  • global consistency: all average score of the 6 selection criteria > 2,5 => 1 point.
  • the favourite: % of assessments judge the innovation as a top one to act on a global scale against greenhouse gases > 20% => 1 point
  • the targeting: validation of Team for the Planet scope of action higher than 90% => 0,5 point + innovation level of maturity is enough => 0,5 point
  • social acceptability: semantic analysis score of comments > 0 => 0,5 point/ if > 3500 => 1 point
76 assessments

Submitted to market tests : Innovations considered scientifically doable by the Scientific Committee are tested to check their economic viability. The managing directors are responsible for the choice.

CarbonFiberStone is the new sustainable steel: zero corrosion, zero waste, zero carbon.

Lever of action
Zero emissions
Sector
Buildings
Discover our scope of action arrow_forward
Submission date August 09, 2021 Founders Stephan Savarese Development location France

Detailed project

NB: this form is filled entirely by the ones submitting the innovation.

What is the issue addressed?

The production of steel, concrete, and aluminum is responsible for more than 15% of the world's CO2 emissions, significant pollution, and the danger of depleting ecosystems and natural resources (water, sediments, iron ore) before 2050. A sustainable and high-performance technology is missing. See the video pitch: https://www.youtube.com/watch?v=AypC3jVNH1Y

How is the problem solved?

Our patented process replaces steel: we are the first to bend stone without breaking it. We have simply discovered a little-known property of the most abundant stones! But to do this, we had to think about combining it with high-tech materials from the aerospace era. The first impact studies were conducted in 2021 with the help of CleanTechOpen and Clean Energy Ventures. They are available in English: - GHG Emission Reduction Potential: https://cloud.tctf.eu/s/Cg64PdNfXeot9wS - SERC: https://cloud.tctf. eu/s/99xcHQ8yDX9BF7g In summary: it is assumed that from 2040 onwards, CFS will replace half of the world's steel production (at least 2 billion tons per year), with the following progression: 2025: ten thousand tons per year 2030: one million tons per year 2040: one billion tons per year Replacing one ton of steel saves about 1 ton of CO2 (0.5 tons for recycled steel, more than 2 tons of CO2 per ton of high quality or stainless steel). Docn the potential at scale is about 1 billion tons of CO2 saved, without counting: 1. the substitution of concrete which will start to occur around 2030 (cf. new 2020 regulation in France which will penalize not only steel, but also concrete, from 2028). 2. future versions of CFS, carbon-negative thanks to the integration of Negative Emissions Technologies (NETs) 3. emissions avoided upstream and downstream of the chain thanks to the lightening and the extension of the life span of the structures, see this article of the Cahiers Techniques du Bâtiment: https://www.cahiers-techniques-batiment.fr/article/-augmenter-la-duree-de-vie-des-ouvrages-et-reduire-les-quantites-de-matiere-.43311 4. integral recycling to reach the objective of zero waste 5. other positive externalities which are currently the subject of research and technical-economic studies

What is the customer target?

All industrial steel users (buildings, infrastructure, heavy equipment) can replace all or part of their steel consumption: 1.2 billion of the 1.8 billion tons of steel produced each year + part of the concrete

How is this solution different?

Pragmatic: available, already low carbon and high performance (no competitor comes close because TechnoCarbon has the performance of high performance concrete and steel for a fraction of the emissions and environmental footprint). Futuristic: creates a carbon sink in buildings, infrastructure and industry by integrating negative emission technologies, fulfilling the IPCC recommendation (IPCC SR15, chap. 4, 2018)