Selected

CompactCarbonCatcher

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'Time points' are awarded according to the adequacy of the solution with the type of innovations sought by Time 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 Time for the Planet<span class="brand">®</span> 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
88 assessments

Submitted to the Scientific Committee : After the evaluations made by our volunteer assessors, innovations with the strongest impact potential are submitted to the Scientific Committee. The managing directors are responsible for the choice.

The only device that breaks the CO2 molecule continuously, reducing GHG by 90%.

Submission date June 27, 2022 Founders Laurent GEULIN Development location La Teste de Buch, France

Detailed project

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

What is the issue addressed?

Global warming, reduction of GHG, transformation of CO2 emitted into Carbon and Oxygen.

How is the problem solved?

In the tests carried out, it drastically reduces fine particle emissions and breaks down CO2. As soon as the device is installed at the exhaust outlet, we note the transformation of almost all the CO2 emitted by a thermal engine.

What is the customer target?

We have proven our process on cars and buses. This step allows us to validate the feasibility on similar engines and identical environments (truck, construction equipment, agricultural vehicle). Our innovation is for everyone.

How is this solution different?

Today, we know how to continuously dissociate CO2 during its production without going through a storage stage. This allows to : - to regenerate the Oxygen initially consumed, - to have the possibility of reusing the recovered precipitate.