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Get to know SCID

When we developed Selective Chemically Induced Denitrification, we did not invent any new chemical reactions – we simply used a much better understanding of the chemistry behind denitrification to improve specifically desired reactions.

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The strengths of SCID

SCID is a chemical application concept,
not a technology in itself.

Countless computations across different industries explain, trough fundamental chemical principles and the kinetic gas theory, where Selective Chemically Induced Denitrification is valuable.

Large-scale industrial tests in the cement industry show the successful implementation in difficult environments.

Flue gas denitrification is not just about hitting the temperature sweet spot. It’s about changing the behavior of ammonia to make the process faster, more efficient, and highly effective.

What's going on?

Selective Chemically
Induced Denitrification
is the the most flexible denitrification concept for industrial plants
applying a plant- and flue-gas-tailored gas phase catalyst.

Why is the temperature changing?

The additive initiates the formation of free radicals that spontaneously react with the highly reactive NOX. Therefore, there is no need to break the urea/ammonia molecules by temperature.

Why is SCID working without a solid-state catalyst?

The gas phase catalyst is used directly in the course of denitrification on an ongoing basis. A single trigger pulse is sufficient to initiate the desired DeNOX reaction. 

Why is ammonia slip decreasing?

SCID application allows the use of ammonia slip (produced by denitrification or present in the process) as a reactant for denitrification as a post-treatment.

Why is less agent used?

Full utilization of the reactants results in either better denitrification performance or savings in reactants for the same DeNOX result.

What's going on?

Selective Chemically Induced Denitrification is the
the most flexible denitrification concept for industrial plants
applying a plant- and flue-gas-tailored gas phase catalyst.

 

Why is the temperature changing?

Why is SCID working without a solid-state catalyst?

Why is ammonia slip decreasing?

Why is less agent used?

The gas phase catalyst is used directly in the course of denitrification on an ongoing basis. A single trigger pulse is sufficient to initiate the desired DeNOX reaction. 

SCID application allows the use of ammonia slip (produced by denitrification or present in the process) as a reactant for denitrification as a post-treatment.

Full utilization of the reactants results in either better denitrification performance or savings in reactants for the same DeNOX result.

The additive initiates the formation of free radicals that spontaneously react with the highly reactive NOX. Therefore, there is no need to break the urea/ammonia molecules by temperature.

We have visualized an invisible process for you.

Gas Phase Catalysts are additives designed to help activate the ammonia. They are used directly in the course of denitrification on an ongoing basis and allow the reducing agent to react immediately with the NOX. The results are faster and more complete denitrification and reduced ammonia slip.

Let’s Make Great DeNOX.

Get in touch now!

Use the full potential of nitrogen chemistry on your industrial plant. Reaction kinetics can make a surprisingly effective difference.

DyCarnica
Karin Koglbauer, MA, MBA

Gorintschach 27
9184 St. Jakob im Rosental
Austria

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2024 - DyCarnica Management Consultancy

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