Peerless supplies CO/VOC oxidation systems for a variety of applications. The basic function of the oxidation system is to oxidize carbon monoxide (CO) and a variety of volatile organic compounds (VOCs) into carbon dioxide (CO2) and water (H2O). This reaction is achieved without the use of any additional chemical reagent. The catalyst is the only ...
Emissions of volatile organic compounds (VOC) arise in many industrial processes, e.g. in association with the use and manufacture of solvents.
For the oxidation of carbon monoxide as emitted from power generating plants such as natural gas and diesel-fired turbines. EmeraChem’s ADCAT™ CO/VOC oxidation catalyst yields optimal conversion efficiencies with reduced catalyst volume for the lowest capital cost.
The new filtering media Bi-On S is the alternative to activated carbon (AC), normally used in solvent recycling systems. Bi-On S is specially effective in facilities dedicated to the recuperation of solvents such as ethyl acetate and ethanol. These solvents are commonly used in graphic and printing industry (tampography, flexography, etc).
The Honeycat catalyst range from Johnson Matthey, a major worldwide supplier of industrial air pollution control catalysts, consists of thin-walled honeycomb supports coated with a fine dispersion of Platinum Group Metals, impregnated into a high surface area washcoat.
AirProtekt Ltd supplies the complete range of proven industrial catalyst for air pollution control. The catalyst technologies used are all tried and tested and backed up by the highest manufacturing & quality control standards from the largest automobile catalyst manufacturer in the world.
The ADCAT VOC oxidation catalyst yields optimal conversion efficiencies of criteria pollutants with reduced catalyst volume for a variety of industrial processes. EmeraChem’s ADCAT™ VOC oxidation catalyst yields optimal conversion efficiencies with reduced catalyst volume for the lowest capital and operating costs for all types of the ...
A highly efficient air purification system for VOC emissions that require high levels of purification and low energy consumption. Normally a removal efficiency of 96-98% can be achieved.
High-temperature thermal oxidation is a longstanding CSM specialty. Our thermal oxidizers accomplish the same oxidation processes as our catalytic oxidizers. However, thermal oxidation is initiated in an oxidation chamber to combust pollutants at the elevated temperature of about 2000 °F.