TSKE Tsukishima Kankyo Engineering Ltd.
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VOC Control Systems
>Local Exhaust Ventilation and Combustion System
Engineering
Vortex burner
Liquid injector
Incinerator
Quencher
Dust removal
SPIRAX
Raschig Super-Ring
Raschig Super-Pak
Tower Internals
Submerged Combustion System
Combustion employing a preconcentration process
Air stripping evaporation & combustion process
Deplumer unit
Slurry combustion system
Thermal Oxidizer
Catalytic WAO Effluent Water Tr eatment System
BMB Stripper
Ammonia Separation and Recovery Process
Ammonia Separation and Decomposition Process
Biotreatment System / Anaerobic Treatment
BMB Absorber
Biotreatment System / Aerobic Treatment
Solvent Recovery and Refining System
Local Exhaust Ventilation and Combustion System
Acid Recovery and Concentration System
Chlorine Drying Process
Fluorocarbon Destruction System
Kiln Gasification System
Melting Kiln System
Fast Fluidized Incineration System
Fluidized-bed Incineration System
Flue Gas Desulfurization System
Dioxins Decomposition Catalyst
Membrane Separation Process
BMB Generator
Rare metal recovery system
Applications of High Performance Packing Device
Production Plant
Therm Porter
Since local exhaust ventilation contains various components with often low concentration, the combustion method is advantageous.
Direct Combustion System
Applies to gas containing much dust or waste gas with high heating value.
Heat recovery of waste gas containing little salt.
Process Flow
Catalytic Combustion System
Consumes the least amount of fuel among the three methods.
No flame is used, so reaction temperature is mild and the risk is small.
Process Flow
Regenerative Combustion System
Heat recovery by direct contact using ceramics heat storage unit is economical, reducing fuel consumption to very low levels.
Any acidic gas generated after heat decomposition can be treated with the scrubber.
Process Flow
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