With flue gas desulfurization in the industry, power plants or waste incineration plants, it depends on nozzles that guarantee a precise function over longer periods and withstand extremely aggressive ambient conditions in the process but as well which support permanent process improvement and decrease of operating and maintenance costs due to constantly increasing requirements on the part of environmental protection. Lechler has developed not only resistant atomization nozzles made from ceramic materials, especially for the different methods of flue gas desulfurization but process enhancing solutions along with operating costs and maintenance decreasing answers. Our engineers would be pleased to help you choosing the right nozzles.
Double full or double hollow cone nozzles for wet flue gas desulphurisation. The innovative technology of Lechler TwinAbsorb nozzles ensure for an efficient flue gas cleaning and reliable SO2 separation.
Further development of the TwinAbsorb. Four overlapping spray nozzles generate additional jet collisions and thus, a more active reaction surface. Thanks to the spacious distribution, the Twin4Absorb is particularly suitable for the optimisation of existing washers.
Lechler full cone, hollow cone and flat jet nozzles meet the requirements that modern technology in exhaust air cleaning places on nozzles: high-alloy and chemically resistant materials as well as liquid distribution and circular distribution tailored to the application and the appropriate droplet spectrum.
Lechler droplet separator systems are optimally matched to the droplets generated during the flue gas rinsing and thus achieve the highest degree of separation.
Twin-fluid nozzles for semi-dry flue gas desulphurisation. The Lechler 1SR nozzle series was especially developed for the atomisation of lime milk or suspension.
The comfortable Cleaning-in-Place-System for twin-fluid nozzles that remove harmful deposits and blockages in nozzles as well as pipelines thus rendering your plant more effective.
Spillback nozzle lances allow a compressed air-free atomization. With dry methods for SO2 separation, spillback nozzle lances are frequently used in the circulating fluidized bed for the cooling of the flue gases.