Transalkylation
Transalkylation is a chemical reaction involving the transfer of an alkyl group from one organic compound to another. The reaction is most commonly used for the transfer of methyl groups between benzene rings and is widely used in the petrochemical industry to manufacture p-xylene, styrene,[1] and other aromatic compounds. Motivation for using transalkylation reactions is based on a difference in production and demand for benzene, toluene, and xylenes. Transalkylation can convert toluene, which is overproduced, into benzene and xylene, which are under-produced.[2] Zeolites are often used as catalysts in transalkylation reactions.[3]
Disproportionation
Transalyklation as used by the petrochemical industry is often used to convert toluene into benzene and xylenes. This is achieved through a disproportionation reaction of toluene in which one toluene molecule transfers its methyl group to another one. The reaction is not selective, and the xylene produced can be ortho, meta, or para. There is a higher demand for para xylene, so it is often separated out, and the reaction is allowed to produce more para product.[2]
M/R Ratio
This type of reaction can also be performed with toluene and trimethylbenzene to produce xylene. The reaction occurs via equilibrium, so the product is not pure xylene. Many products are produced with varying numbers of methyl groups. The quantities in which each product is produced depends on the M/R ratio. This is the ratio of the number of methyl groups to the number of benzene rings in all of the substrates. For example, in the disproportionation of toluene, the M/R ratio is 1. Side reactions in which alkanes are produced reduce the number of methyl groups available which decreases the M/R ratio. This can be mitigated by adding compounds with higher numbers of methyl groups, such as trimethylbenzene. The ratio of products produced depends only on the M/R ratio so different starting materials can produce the same compounds via transalkylation.[2]
Zeolite catalysts
Transalkylation reactions are often performed using zeolite catalysts. Zeolites are crystalline solids composed of AlO
4 and SiO
4. These crystals are porous in nature with varying pore size. Zeolites of varying sizes are used to perform transalkylation on different substrates. For example, zeolites with a pore size of 5.5Å are suitable for trimethylbenzene transalkylations.[2]
See also
References
- ↑ Styrene process with recycle from dehydrogenation zone
- 1 2 3 4 Tsai, Tseng-Chang "Disproportionation and transalkylation of alkylbenzenes over zeolite catalysts". Elsevier Science, 1999
- ↑ US application 20100022814, Goncalvez De Almeida; Jose Luis & Berna Tejero et al., "Catalytic transalkylation of dialkyl benzenes", published 2010-01-28, assigned to Petroquimica Espanola, S.A. Petresa
- ↑ Reformate upgrading to produce enriched BTX using noble metal promoted zeolite catalyst
External links
- Process and apparatus for ethylbenzene production and transalkylation to xylene
- Transalkylation process
- Transalkylation of dialkylbenzene
- Exxon Mobil Transalkylation Process
- Transalkylation in the Petrochemical Industry