Parameters such as dustiness, sulfur content, flue gas temperature, and the space available for installation determine the best denitrification method. Our long experience in combustion processes and boiler design results in optimized denitrification systems regarding investment and operating costs for both new builds and retrofits.

We deliver DeNOx systems in both "High Dust" (i.e. before flue gas treatment) and "Tail End" (i.e. after flue gas treatment) 환경. With time, as the operating conditions in the plant change, SCR and SCNR systems can be expanded or optimized, allowing for further significant reductions in NOx emissions.

Selecting the correct type of catalyst according to the site condition results in high-performance and lower operating costs. The type of catalyst is influenced by the fuel and flue gas composition, such as ash content. The oxidizing properties of catalysts for SCR also influence the oxidation degree of mercury from Hg⁰ to Hg²⁺, thus significantly contributing to mercury removal efficiency in the downstream flue gas equipment.

It is possible to combine both methods into one system to decrease the costs while reaching emissions limits. In this case, the SNCR system performs an initial reduction of NOx. Emissions are further reduced by the remaining unreacted ammonia 카지노 딜러he SCR catalytic layer after the non-catalytic process, thus reducing the consumption. This makes it possible to keep emissions at the required level. In the event of stricter emissions limits, the reduction rate can be increased by optimizing reagent injection and catalytic modules.