Constandinos Mitsingas.  Overall Process  Syngas Production  Fischer Tropsch Process  Fischer Tropsch Reactors  Chemical Reaction Catalysts  Products.

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Presentation transcript:

Constandinos Mitsingas

 Overall Process  Syngas Production  Fischer Tropsch Process  Fischer Tropsch Reactors  Chemical Reaction Catalysts  Products  Benefits  Disadvantages  Current Research Areas

 60-70% of total cost  Natural gas has 20% CO2, more efficient and cost effective  Coal, has 50% CO2, more abundant

 Input Materials ◦ Coal ◦ Natural Gas ◦ Biomass  Process Chemistry:  Temperature: °C  Formation of methane is unwanted

a. Slurry bubble column reactor; b. Multitubular trickle bed reactor; c. Circulating fluidized bed reactor; d. Fluidized bed reactor.  Two Most favored reactor types: ◦ Multitubular fixed bed reactor with internal cooling ◦ Slurry bubble column reactor with internal cooling tubes

 Transition Metal ◦ Cobalt  Highly active  Feedstock is natural gas ◦ Iron  Suitable for low-hydrogen-content synthesis gases  Lower quality feedstock, coal or biomass ◦ Ruthenium  Very Expensive  Hardly used in FT ◦ Nickel  Favors methane formation

Table 1: Conventions of produced fuel names and compositions Table 2: Comparison of FT Diesel with two ASTM approved Diesels

 No Nitrogenous compounds  No Sulfur compounds  Cetane rating (energy stored) 75-90% higher than that required for petrochemical derived diesel fuel

 Heat removal from the process  Syngas Clean-Up  Catalyst deactivation rate  Change in feedstock

Table 3:Estimate of patents of the major companies active in Fischer- Tropsch

 " Fischer–Tropsch Process." Wikipedia, the Free Encyclopedia. Web. 29 Nov  Boerrigter, H., and A. Van Der Drift. "LARGE-SCALE PRODUCTION of FISCHER-TROPSCH DIESEL FROM BIOMASS." (2004). ECN. Web.  "Alternative Fuels and Advanced Vehicles Data Center: What Is Fischer-Tropsch Diesel?" EERE: Alternative Fuels and Advanced Vehicles Data Center Program Home Page. Web. 29 Nov