METEORTM
CORMETECH METEOR™ is a multi-emission catalyst which simultaneously reduces NOx and oxidizes CO, VOCs and THCs to compliance levels while minimizing NH3 slip within one catalyst layer. Specifically designed for use with combustion turbines and internal combustion engines, this catalyst provides enhanced operational efficiency and can simultaneously achieve high NOx removal and high oxidation rates over a wide temperature range.
CORMETECH METEOR™ catalyst has been installed in numerous units worldwide with exceptional field performance exceeding design targets. The catalytic formula is highly tunable and allows for targeted reduction as:
- Traditional Multi-Emission Catalyst – NOx, CO, VOC and THC Reduction
- Ammonia Slip Control Catalyst – High Performance with Low NH3 Slip
- Primary Oxidation Catalyst – CO, VOC and THC Reduction
Combining CORMETECH METEOR™ catalyst with CORMETECH EliteTM design results in the lowest achievable pressure drop for a Selective Catalytic Reduction (SCR) and CO Oxidation system, as well as the following features:
CORMETECH METEOR™ is a multi-emission catalyst which simultaneously reduces NOx and oxidizes CO, VOCs and THCs to compliance levels while minimizing NH3 slip within one catalyst layer. Specifically designed for use with combustion turbines and internal combustion engines, this catalyst provides enhanced operational efficiency and can simultaneously achieve high NOx removal and high oxidation rates over a wide temperature range.
CORMETECH METEOR™ catalyst has been installed in numerous units worldwide with exceptional field performance exceeding design targets. The catalytic formula is highly tunable and allows for targeted reduction as:
- Traditional Multi-Emission Catalyst – NOx, CO, VOC and THC Reduction
- Ammonia Slip Control Catalyst – High Performance with Low NH3 Slip
- Primary Oxidation Catalyst – CO, VOC and THC Reduction
Unmatched Multi-Emission Control
- Custom Asset Optimization
- Increased Load Flexibility and Reduced Parasitic Load
- Ultra-Low Pressure Loss Yielding Improved Efficiency
- Low SO2 to SO3 Conversion
Versatile,EnvironmentallyResponsible
- Lowest Total Lifecycle Cost
- Lower Catalyst Management Costs
- Resistant to Sulfates in the Exhaust Gas
- Smaller Footprint Space within the Duct