Catalytic Solutions For The Removal Of Organic And Inorganic Compounds From Industrial Gases
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Transcript of Catalytic Solutions For The Removal Of Organic And Inorganic Compounds From Industrial Gases
“Catalytic Solutions For The Removal Of Organic And Inorganic Compounds From Industrial Gases”
VULCAN SYSTEMS CATALYST PROCESS TECHNOLOGY
Gerard B. Hawkins Managing Director
VULCAN SYSTEMS CATALYST PROCESS TECHNOLOGY
Content - Overview - Gas sources/impurities - Advantages of catalytic approach - Catalyst selection and properties - Selected references and applications
VULCAN SYSTEMS CATALYST PROCESS TECHNOLOGY
VULCAN SYSTEMS CATALYST PROCESS TECHNOLOGY
Gas Sources
VULCAN SYSTEMS CATALYST PROCESS TECHNOLOGY
VULCAN SYSTEMS CATALYST PROCESS TECHNOLOGY
VULCAN SYSTEMS CATALYST PROCESS TECHNOLOGY
VULCAN SYSTEMS
VULCAN SYSTEMS CATALYST PROCESS TECHNOLOGY
VULCAN SYSTEMS CATALYST PROCESS TECHNOLOGY
VULCAN SYSTEMS CATALYST PROCESS TECHNOLOGY
VULCAN SYSTEMS CATALYST PROCESS TECHNOLOGY
VULCAN SYSTEMS CATALYST PROCESS TECHNOLOGY
VULCAN SYSTEMS CATALYST PROCESS TECHNOLOGY
VULCAN SYSTEMS CATALYST PROCESS TECHNOLOGY
VULCAN SYSTEMS CATALYST PROCESS TECHNOLOGY
VULCAN SYSTEMS CATALYST PROCESS TECHNOLOGY
VULCAN SYSTEMS CATALYST PROCESS TECHNOLOGY
Figure 1 Equilibrium NOx predictions for stoichiometric combustion of a fuel with air
VULCAN SYSTEMS CATALYST PROCESS TECHNOLOGY
Figure 2 Equilibrium NOx predictions for combustion of CH4 as function of excess air level
VULCAN SYSTEMS CATALYST PROCESS TECHNOLOGY
Figure 3 Adiabatic equilibrium NOx predictions for stoichiometric combustion of fuel combusted with air as function of volume of combustion products (2000°F or 1100°C) recycled back into the flame
VULCAN SYSTEMS CATALYST PROCESS TECHNOLOGY