Air Pollution Control Technology

004	Reduction of SO2 and Offensive Odor from Process Exhaust Gas
004	- Chart -
006	Reduction of SOx and dust in Process Exhaust Gas
006	- Chart -
007	Reduction of NOx Discharge
012	Discontinuance of Use of 1-1-1 Trichloroethane ( Ozone layer destroying substance )
018	Treatment of Flue Gas ( Reduction of NOx, SOx and Soot )
018	- Chart -
022	Removal of Exhaust NOx by Ammonia Catalytic Reduction Method
022	- Chart -
027	Reduction of SO2 Discharge by Wet Limestone Gypsum Flue Gas Desulfurization Process
027	- Chart -
028	Removal of NOx Discharge by Dry Ammonia Catalytic Reduction Process
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029	Reduction of NOx Discharge by Improving Combustion Method
029	- Chart -
035	Reduction of SO2 in Boiler Exhaust Gas
035	- Chart -
036	Decrease of NOx in Boiler Exhaust Gas by Ammonia Catalytic Reduction Method
036	- Chart -
037	Reduction of Smoke Dust in Boiler Exhaust Gas
037	- Chart -
038	Reduction of NOx in Furnace Combustion Exhaust Gas
038	- Chart -
039	Reduction of NOx in Gas Turbine Exhaust Gas
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040	Processing of Hydrogen Sulfide ( Manufacturing of Liquid Sulfur )
040	- Chart -
046	Reduction of NOx in Boiler Exhaust Gas
046	- Chart -
047	Reduction of Dust Discharged from Catalyst Regenerator
047	- Chart -
048	Reduction of NOx Discharged from Catalyst Regenerator
048	- Chart -
059	Processing of SOx, NOx and Dust Discharged from Coal Burning Boilers
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063	Reduction of Exhaust SO2
063	- Chart -
064	Magnesium Hydroxide Method Wet Type Flue Gas Desulfurization Equipment ( Coal burning boiler )
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066	Dry Ammonia Contact Reduction Method Flue Gas Denitration Equipment ( for Coal burning boiler )
067	Coke Oven Gas Desulfurization Equipment ( TAKAHAX - Sulfuric acid manufacturing process )
067	- Chart -
114	Dust Removal and Desulfurization Using Scrubbers
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178	Prevention of acid dust falling down from stack
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