Javascript must be enabled to continue!

Upgrading of Fischer–Tropsch Oxygenates

The oxygenates in Fischer–Tropsch syncrude can be recovered and purified as chemicals, or can be converted into fuels. The main acid catalysed conversion steps of oxygenates are discussed, with particular attention on aldol condensation, dehydration, hydrolysis and carbonyl aromatisation. Oxygenate conversion in the Fischer–Tropsch aqueous and oil products are discussed. The importance of alumina as catalyst for oxygenate conversion in a Fischer–Tropsch syncrude matrix is highlighted and illustrated with examples.

The Royal Society of Chemistry

Catalysis in the Refining of Fischer-Tropsch Syncrude

2010

Title: Upgrading of Fischer–Tropsch Oxygenates

Description:

The oxygenates in Fischer–Tropsch syncrude can be recovered and purified as chemicals, or can be converted into fuels.

The main acid catalysed conversion steps of oxygenates are discussed, with particular attention on aldol condensation, dehydration, hydrolysis and carbonyl aromatisation.

Oxygenate conversion in the Fischer–Tropsch aqueous and oil products are discussed.

The importance of alumina as catalyst for oxygenate conversion in a Fischer–Tropsch syncrude matrix is highlighted and illustrated with examples.

Back

Related Results

Fischer–Tropsch Syncrude

Fischer–Tropsch syncrude is a complex multi-phase mixture and the syncrude composition depends on various factors related to the Fischer–Tropsch synthesis. The syncrude may contain...

Fischer–Tropsch Synthesis

An overview of Fischer–Tropsch synthesis is provided to highlight aspects that affect the syncrude composition. The influence of the Fischer–Tropsch catalyst type, synthesis reacto...

Introduction

An overview is given of the Fischer–Tropsch based conversion of carbon containing feed materials (coal, biomass, natural gas and waste) into useful products (fuels and chemicals). ...

Catalysis in the Refining of Fischer–Tropsch Syncrude

There are meaningful differences in composition between Fischer–Tropsch syncrude and conventional crude oil. These differences influence the catalysis, catalyst selection and refin...

Manganese‐Modified Metal Nanoparticle Catalysts for Syngas to C2+‐Oxygenates

AbstractSyngas to oxygenates, in particular to alcohols containing two or more carbon atoms (i.e., C2+‐oxygenates), is one of the important research subjects in syngas conversion. ...

Catalysis in the Upgrading of Fischer–Tropsch Syncrude

The catalysis of conversion technologies that are found in most commercial Fischer–Tropsch upgrading and refining facilities are discussed. Four main classes of catalysis are consi...

Upgrading of Fischer–Tropsch Waxes

Wax is only produced during low temperature Fischer–Tropsch (LTFT) synthesis. An overview of commercial upgrading is given, which includes the German LTFT facilities in the 1930-19...

Research Progress on Removal of Oxygenates in Fischer-Tropsch Oil by Adsorption

The oxygen-containing compounds in Fischer Tropsch synthetic oil greatly affect the downstream deep processing of hydrocarbons, and effective removal is required. Compared to tradi...

Email:
Password:

Email: