CarStorCon® technology - easy to use and integrate into existing processes.
Clim@Add®
Our Clim@Add® additive is easy to process, is pumpable and offers better processing at high outside temperatures.
No separate process is required; existing systems and insertion mechanisms can be used seamlessly.
Our technology is also easily compatible with existing sustainability measures such as recycling solutions.
Clim@Add®
Our Clim@Add® additive is easy to process, is pumpable and offers better processing at high outside temperatures.
No separate process is required; existing systems and insertion mechanisms can be used seamlessly.
Our technology is also easily compatible with existing sustainability measures such as recycling solutions.
By incorporating technical carbon, concrete and asphalt applications become CO₂ reservoirs.
Technical carbon is the basis of our Clim@Add® additive. It is produced during the thermochemical conversion (pyrolysis) of woody waste streams.
For the CarStorCon® technology, we use forest residues from sustainable forestry and fast-growing roadside vegetation.
The special process permanently binds the carbon contained in the residues, which the plants have converted through photosynthesis over the course of their lives.
In the pyrolysis process, sustainable, regional energy in the form of electricity and/or heat is generated in addition to the CO2-storing carbon, which can be fed into the cycle.
Our patented optimization of the technical carbon makes it possible to incorporate it into almost any concrete application. The material is easy to process, can be pumped and existing systems can be used without major adjustments.
The carbon used is EBC certified, chemically stable and can be reintegrated into material cycles.
When technical carbon is incorporated into concrete and asphalt, the carbon forms a permanent bond with the product matrix. The resulting carbon sinks are permanent and can even persist beyond the service life of the products.
Since the bound carbon cannot recombine with oxygen, it is also referred to asa CO2 sink .
CO₂ removal through negative emission technologies
In order to achieve the global climate targets, technologies that actively removeCO2 from the atmosphere are needed in addition to a massive reduction in emissions .
BCR (Biochar Carbon Removal) is one of the most promising negative emission technologies (NET). It can already be used today, has no long research lead time, low investment costs and can be integrated into existing systems as a plant extension.
Another key advantage compared to other NETs is that no additional energy is required - on the contrary, the process generates sustainable, regional energy in the form of electricity and/or heat that can be fed into the cycle inaddition to the CO2-storing carbon.
By using the technology within the company's own value chain, emissions are not offset externally, but are instead offset within the company's own production - transparently, traceably and certified.
CO₂ removal through negative emission technologies
In order to achieve the global climate targets, technologies that actively removeCO2 from the atmosphere are needed in addition to a massive reduction in emissions .
BCR (Biochar Carbon Removal) is one of the most promising negative emission technologies (NET). It can already be used today, has no long research lead time, low investment costs and can be integrated into existing systems as a plant extension.
Another key advantage compared to other NETs is that no additional energy is required - on the contrary, the process generates sustainable, regional energy in the form of electricity and/or heat that can be fed into the cycle inaddition to the CO2-storing carbon.
By using the technology within the company's own value chain, emissions are not offset externally, but are instead offset within the company's own production - transparently, traceably and certified.
Short and sweet
1 kg of Clim@Add® can storeup to 3 kg of CO2.
The carbon used is EBC certified.
Clim@Add® is easy to process, can be pumped and offers better processing at high outside temperatures.
Clim@Add® can be used to adapt material properties and thus replace additives from fossil raw material sources
Biogas and heat generated during production can be usedas CO2-neutral energy.
Plants do the work for us: they sequester carbon in the forest, on the roadside, in green spaces and parks...
With our technology, we ensure that the carbon remains permanently bound.
Sink certificates
Certified tracking along the entire value chain ensures maximum transparency. This actively prevents not only the multiple counting of sinks but also greenwashing. Certificates are issued for all our projects and, depending on their use, are either decommissioned or traded.
The carbon used is EBC certified, chemically stable and can be reintegrated into material cycles.
We offer manufacturers, builders and architects an innovative solution for the
decarbonization of mineral building materials along the entire
value chain.
So that you are ahead of the competition on the way to net zero!
Sink certificates
Certified tracking along the entire value chain ensures maximum transparency. This actively prevents not only the multiple counting of sinks but also greenwashing. Certificates are issued for all our projects and, depending on their use, are either decommissioned or traded.
The carbon used is EBC certified, chemically stable and can be reintegrated into material cycles.
We offer manufacturers, builders and architects an innovative solution for the
decarbonization of mineral building materials along the entire
value chain.
So that you are ahead of the competition on the way to net zero!
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