Fischer-Tropsch reaction, conversion of so-called synthesis gas, composed mainly of carbon monoxide and hydrogen, to hydrocarbons through the influence of elevated temperatures and normal or elevated pressures in the presence of a catalyst of magnetic iron oxide.How is Fischer Tropsch used in gas to liquid conversion?
Fischer-Tropsch (FT) process is one of the most applied techniques for gas-to-liquid (GTL) conversion which is based on the catalytic conversion of CO and H 2 to long-chain hydrocarbons. Alumina-supported cobalt nanoparticles are well-known for their high catalytic activity and selectivity in the FT reaction.Why are trickle flow reactors used in Fischer Tropsch?
Excess temperature leads to carbon deposition and hence blockage of the reactor. Since large amounts of the products formed are in liquid state, this type of reactor can also be referred to as a trickle flow reactor system. An important requirement of the reactor for the Fischer–Tropsch process is to remove the heat of the reaction.What is the molecular weight distribution of Fischer Tropsch synthesis?
The Fischer-Tropsch synthesis reaction, in theory, is a condensation polymerization reaction of CO. Its products obey a well-defined molecular weight distribution according to a relationship known as Shultz-Flory distribution. Catalysts.