Green Works

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Environmental Care, New & Renewable Energy
GreenWorks

GreenWorks makes use of its new and renewable energy technology for the future of mankind

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The process of N2O Removal works the same way as the regenerative catalyst combustion model. By maintaining the inserted gas at 450-600℃, the process maximizes N2O removal activity and cost reduction.

	The process is applied in emission facilities such as the N2O Nitrate Plant and Caprolactam Plan.
	-The process is high in efficiency since it enables the maintenance of stable temperature. -It is cost-saving since it is low in energy consumption. (Good for CERs) -It is simple to operate and maintain.
	-Procedure for prevention of catalyst toxins should be considered. -Cost of regular catalyst change should be considered.

Facility types	Regenerative Catalyst System			Catalyst System
Facility types	2-BED	3-BED	1-CAN ROTARY	Catalyst System
Main Structural Facilities	De-N2O Catalyst Regenerative System Burner System Entering and Exiting Part SeparationDamper(4ea)	De-N2O Catalyst Regenerative System Burner System Entering and Exiting Part Separation Damper(6ea)	De-N2O Catalyst Regenerative System Burner System Flux Separation Rotary Valve	De-N2O Catalyst Regenerative System Burner System Heat Exchanger
Abatement Efficiency	Catalyst Efficiency (-) 3~5%	Catalyst Efficiency (-) 1~2%	Catalyst Efficiency (-) 1~2%	Catalyst Efficiency (-) 0%
Heat Efficiency	Over 90%	Over 90%	Over 90%	About 60%
Advantages of the System	-Low Initial Investment Cost -Easy to Operate -Simple Maintenance	-High Facility Efficiency -High Thermal Efficiency -Stable Facility Operation	-Low Initial Investment Cost -Compact Facility -Simple Maintenance	-High Facility Efficiency -Compact Facility -Simple Maintenance -Low Initial Investment Cost
Disadvantages of the System	-Low Treatment Efficiency -Low Thermal Efficiency -Change in Pressure During Damper Operation	-High Initial Investment Cost -Extensive Facility Space -Change in Pressure During Damper Operation	During Damper Operation, No Change in Pressure	Low Thermal Efficiency