Reactor
A reactor is a device that uses chemical reactions to remove acidic gases such as SOx, NOx and HCl from flue gas streams. A reactor can use different types of sorbents, such as lime, limestone, ammonia or sodium bicarbonate, to neutralize the acidic gases and form solid or liquid by-products. A reactor can be integrated with other flue gas cleaning equipment, such as bag filters, cyclones or scrubbers, to achieve higher removal efficiency and lower emissions.
Cybertig flue gas treatment systems utilize advanced reactor technology to ensure the efficient neutralization of acidic gases. The reactors operate by introducing sorbents into the flue gas stream, where they react with SOx, NOx, and HCl to form harmless compounds.
Additional Information
For instance, when using lime or limestone as a sorbent, a typical reaction with sulfur dioxide (SO2) would be:
This reaction results in the formation of calcium sulfite, a solid by-product that can be easily collected and disposed of. Similarly, reactions with other sorbents transform the acidic gases into various salts and water, further reducing the environmental impact.
Cybertig systems are designed to be flexible and can be tailored to specific industrial needs. They are capable of handling a wide range of flue gas volumes and compositions, ensuring compliance with the strictest emission standards. The integration of Cybertig reactors with supplementary equipment like bag filters, which capture particulate matter, and scrubbers, which can further remove gaseous pollutants, creates a comprehensive flue gas cleaning solution. This multi-stage approach not only maximizes the removal efficiency but also minimizes the operational costs by reducing sorbent consumption and extending the life of the equipment.
Moreover, Cybertig is committed to continuous innovation, exploring new sorbent materials and reaction mechanisms to enhance performance and sustainability. By choosing Cybertig, industries can confidently meet their environmental responsibilities while maintaining operational excellence
Specifications
- Reactor volume 10 to 1000 m3
- Gas flow rate 1000 to 100000 Nm3/h
- Gas temperature 100 to 400°C
- Gas pressure Atmospheric or pressurized
- Sorbent type Lime, limestone, ammonia or sodium bicarbonate
- Sorbent consumption 1 to 10 kg/Nm3
- Removal efficiency Up to 99%