Petrochemicals

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© Photo: Volkan CordanFigure 1: Petrochemical plant in Gelsenkirchen, Germany
© Photo: Volkan Cordan
Figure 1: Petrochemical plant in Gelsenkirchen, Germany

Petrochemicals are chemical products made from the hydrocarbons present in raw natural gas and petroleum crude oil. The largest petrochemical manufacturing industries are to be found in the United States, Western Europe, Asia and the Middle East.

A relatively small number of hydyrocarbon feedstocks form the basis of the petrochemical industries, namely methane, ethylene, propylene, butenes, butadiene, benzene, toluene and xylenes.[1][2]

As of 2007, there were 2,980 operating petrochemical plants in 4,320 locations worldwide.[3] The petrochemical end products from those plants include plastics, soaps, detergents, solvents, paints, drugs, fertilizer, pesticides, explosives, synthetic textile fibers and rubbers, flooring and insulating materials and much more.

Petrochemicals are found in such common consumer products as aspirin, cars, clothing, compact discs, video tapes, electronic equipment, furniture, and a great many others.[4]

Contents

Feedstocks sources

(PD) Image: Milton BeychokFigure 2: Petrochemical feedstock sources.
(PD) Image: Milton Beychok
Figure 2: Petrochemical feedstock sources.
(CC) Photo: Nova Chemicals CorporationFigure 3: Steam cracker producing ethylene for use as petrochemical plant feedstock.
(CC) Photo: Nova Chemicals Corporation
Figure 3: Steam cracker producing ethylene for use as petrochemical plant feedstock.

Figure 2 schematically depicts the major hydrocarbon sources used in producing petrochemicals are:[1][2][5][6]

Methane and BTX are used directly as feedstocks for producing petrochemicals. However, the ethane, propane, butanes, naphtha and gas oil serve as optional feedstocks for steam-assisted thermal cracking plants referred to as steam crackers (see Figure 3) that produce these intermediate petrochemical feedstocks:

  • Ethylene
  • Propylene
  • Butenes and butadiene
  • Benzene

In 2007, the amounts of ethylene and propylene produced in steam crackers were about 115 Mt (megatonnes) and 70 Mt, respectively.[7] The output ethylene capacity of large steam crackers ranged up to as much as 1.0 – 1.5 Mt per year.[8][9]

Steam crackers are not to be confused with steam reforming plants used to produce hydrogen and ammonia.

Worldwide usage of optional steam cracking feedstock sources

As of 2004, the percentage of the worldwide steam cracking plants using each of the optional steam cracking feed sources was:[10]

  • Ethane: 35%
  • Propane: 9%
  • Butanes: 3%
  • Naphtha: 45%
  • Gas oil: 5%
  • Other: 3 %

The effect of feedstock on the steam cracking yields of intermediate petrochemical products

The effect of feedstock selection upon the yields of steam cracking products is summarized in the table below:

Steam cracking feedstocks versus yields of intermediate petrochemical products[2]
 Product Yields
Feedstock
source		Ethylene
weight %		Propylene
weight %		Butadiene
weight %		Aromatics (a)
weight%		Other (b)
weight %
Ethane84.0 1.41.40.412.8
Propane45.014.02.03.535.5
Butane44.017.33.03.432.3
Naphtha (c)34.414.44.914.032.3
Gas oil (d)25.5 13.54.912.843.3
(a) Includes benzene, toluene, xylenes and any other aromatics.

(b) Includes hydrogen, methane, butenes, non-aromatic portion of pyrolysis gasoline and fuel oil.
(c) Full-range naphtha (as differentiated from light or heavy naphtha).
(d) The portion of petroleum crude oil that has a boiling range of about 250 to 550 °C (480 to 1020 °F).
That encompasses the boiling range of atmospheric gas oil (AGO) produced by the atmospheric distillation
of petroleum crude oil and the boiling range of vacuum gas oil (VGO) produced by the vacuum distillation
of petroleum crude oil.

Feedstocks and example petrochemical products

The table below includes some representative examples of the petrochemical end products produced from the eight hydrocarbon feedstocks – methane, ethylene, propylene, butenes, butadiene, benzene, toluene and xylenes:

Feedstocks and example petrochemical products
methaneethylenepropylenebutenes and butadienesbenzenetoluenexylenes
hydrogenpolyethylenepolypropylenestyrene-butadiene rubber (SBR)styrenebenzoic acidphthalic anhydride
ammoniaethanolisopropanolmethyl tert-butyl ether (MTBE)polystyrene toluene diisocyanate polyesters
methanolethylene glycolpropylene glycolpolybutadienephenolpolyurethanesdimethyl terephthalate
methyl chloridevinyl acetateallyl chlorideacrylonitrile-butadiene-styrene (ABS)cumenecaprolactamterephthalate acid
carbon blackperchloroethyleneacrylonitrilepolybutenesanilinenylonspolyethylene terephthalate
acetylenepolyvinyl acetateacrylic acidmethyl ethyl ketone (MEK)adipic acidpolyureasdioctyl phthalate
formaldehydeglycol ethersepoxy resinstert-butanolnylons 

References

  1. 1.0 1.1 Sami Matar and Lewis F. Hatch (2001). Chemistry of Petrochemical Processes. Gulf Professionsl Publishing. ISBN 0-0-88415-315-0. 
  2. 2.0 2.1 2.2 Staff (March 2001). "Petrochemical Processes 2001". Hydrocarbon Processing: pp. 71-246. ISSN 0887-0284.
  3. Petrochemical Industry – Worldwide
  4. Petrochemicals Chart From the website of the National Petrochemical & Refiners Association
  5. SBS Polymer Supply Outlook
  6. Jean-Pierre Favennec (Editor) (2001). Petroleum Refining: Refinery Operation and Management. Editions Technip. ISBN 2-7108-0801-3. 
  7. Hassan E. Alfadala, G.V. Rex Reklaitis and Mahmoud M. El-Halwagi (Editors) (2009). Proceedings of the 1st Annual Gas Processing Symposium, Volume 1: January, 2009 - Qatar, 1st Edition. Elsevier Science, pp. 402-414. ISBN 0-444-53292-7. 
  8. Crackers capacities From the website of the Association of Petrochemicals Producers in Europe (APPE)
  9. Steam Cracking: Ethylene Production (PDF page 3 of 12 pages)
  10. Richard Meyers (2003). The Basics of Chemistry. Greenwood Press. ISBN 0-313-31664-3. 
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