BTX (chemistry)

In the petroleum refining and petrochemical industries, the initialism BTX refers to mixtures of benzene, toluene, and the three xylene isomers, all of which are aromatic hydrocarbons. The xylene isomers are distinguished by the designations ortho– (or o–), meta– (or m–), and para– (or p–) as indicated in the adjacent diagram. If ethylbenzene is included, the mixture is sometimes referred to as BTEX.

Structural diagrams of the BTX hydrocarbons.

The BTX aromatics are very important petrochemical materials. Global consumption of benzene, estimated at more than 40,000,000 tons in 2010, showed an unprecedented growth of more than 3,000,000 tons from the level seen in 2009. Likewise, the para-xylene consumption showed unprecedented growth in 2010, growing by 2,800,000 tons, a full ten percent growth from 2009.[1]

Toluene is also a valuable petrochemical for use as a solvent and intermediate in chemical manufacturing processes and as a high octane gasoline component.[2][3][4][5]

Properties of BTX hydrocarbons

The table below lists some of the properties of the BTX aromatic hydrocarbons, all of which are liquids at typical room conditions:

Molecular formulaC6H6C7H8C8H10C8H10C8H10C8H10
Molecular mass, g·mol−178.1292.15106.17106.17106.17106.17
Boiling point, °C80.1110.6136.2138.4139.1144.4
Melting point, °C5.595.095.013.347.925.2

Production of BTX hydrocarbons

BTX content of Pyrolysis Gasoline and Reformate[4]
 Pyrolysis GasolineReformate
BTX content, wt %58425142
Benzene, wt % of BTX48441714
Toluene, wt % of BTX33313939
Xylenes, wt % of BTX19254447
CCR = Continuous catalytic regenerative reformer
SR = Semi-regenerative catalytic reformer

Benzene, toluene, and xylenes can be made by various processes. However, most BTX production is based on the recovery of aromatics derived from the catalytic reforming of naphtha in a petroleum refinery.[4][7]

Catalytic reforming usually utilizes a feedstock naphtha that contains non-aromatic hydrocarbons with 6 to 12 carbon atoms and typically produces a reformate product containing C6 to C8 aromatics (benzene, toluene, xylenes) as well as paraffins and heavier aromatics containing 9 to 12 carbon atoms.

Another process for producing BTX aromatics involves the steam cracking of hydrocarbons which typically produces a cracked naphtha product commonly referred to as pyrolysis gasoline, pyrolysis gas or pygas. The pyrolysis gasoline typically consists of C6 to C8 aromatics, heavier aromatics containing 9 to 12 carbon atoms, and non-aromatic cyclic hydrocarbons (naphthenes) containing 6 or more carbon atoms.[4][7]

The adjacent table compares the BTX content of pyrolysis gasoline produced at standard cracking severity or at medium cracking severity with the BTX content of catalytic reformate produced by either a continuous catalytic regenerative (CCR) reformer or by a semi-regenerative catalytic reformer. About 70 percent of the global production of benzene is by extraction from either reformate or pyrolysis gasoline.[4]

The BTX aromatics can be extracted from catalytic reformate or from pyrolysis gasoline by many different methods. Most of those methods, but not all, involve the use of a solvent either for liquid-liquid extraction or extractive distillation. Many different solvents are suitable, including sulfolane (C4H8O2S), furfural (C5H4O2), tetraethylene glycol (C8H18O5), dimethylsulfoxide (C2H6OS), and N-methyl-2-pyrrolidone (C5H9NO).

Below is a schematic flow diagram of one method, involving extractive distillation, for extraction of the BTX aromatics from a catalytic reformate:[2]

Schematic flow diagram for the extraction of BTX aromatics from a catalytic reformate.

Petrochemicals produced from BTX

There are a very large number of petrochemicals produced from the BTX aromatics. The following diagram shows the chains leading from the BTX components to some of the petrochemicals that can be produced from those components:[2]

Diagram of the chain of petrochemicals derived from the BTX aromatics.

See also

  • Aromaticity  Phenomenon of chemical stability in resonance hybrids of cyclic organic compounds
  • Catalysis  Process of increasing the rate of a chemical reaction
  • Pyrolysis  Thermal decomposition of materials at elevated temperatures in an inert atmosphere
  • J.H. Gary and G.E. Handwerk (1984). Petroleum Refining Technology and Economics (3rd ed.). Marcel Dekker, Inc. ISBN 0-8247-9157-6. (see Chapter 15 available here).
  • Donald L. Burdick and William L. Leffler. Petrochemicals in Nontechnical Language (3rd ed.). PennWell Publishing. ISBN 0-87814-798-5. Available at Google Books.
  • Benzene Supply Trends and Proposed Method For Enhanced Recovery, David Netzer. Presented to 2005 World Petrochemical Conference, March 2005, Houston, Texas, U.S.A.
  • Aromatics Complex, James A. Johnson, Feb. 12, 2009.
  • Paraxylene Production. From the website of GTC Technology, Houston, Texas.


  1. The Future of Benzene and Para-Xylene after Unprecedented Growth In 2010 Archived 2011-10-05 at the Wayback Machine. From a ChemSystems report in 2011.
  2. The BTX Chain: Benzene, Toluene, Xylene. Chapter 4 of the DOE's Office of Energy Efficiency and Renewable Energy (EERE) report entitled "Energy and Environmental Profile of the U.S. Chemical Industry" of May 2000. Archived 2012-09-04 at the Wayback Machine
  3. Use of Process Analytics in Aromatics (BTX and phenol) production plants. Case Study, August 2008. (scroll down to "Aromatics" section.
  4. Benzene/Toluene Archived 2011-08-31 at the Wayback Machine. Introduction to a ChemSystems report, 2009.
  5. 10.6 Aromatics, Online Italian Encyclopedia of Hydrocarbons, Istituto della Enciclopedia Italiana, Volume II, 2006, pages 603-605.
  6. Robert C. Weast, ed. (1975). Handbook of Chemistry and Physics (56th ed.). CRC Press. ISBN 0-87819-455-X.
  7. International Energy Agency (2006).Energy Technology Perspectives. 1st Edition. Organisation for Economic Co-operation and Development (OECD). Page 414. ISBN 08070-1556-3.
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