styrene

Information about styrene

Styrene
IUPAC namePhenylethene
Other namesVinyl benzene; cinnamene; styrol; ethenylbenzene; phenethylene; phenylethene; diarex HF 77; styrolene; styropol
Identifiers
CAS number100-42-5
RTECS numberWL3675000
SMILESc1ccccc1C=C
style="background: #F8EABA; text-align: center;" colspan="2" style="background: #F8EABA; text-align: center;" colspan="2" Hazards
MSDSMSDS
Main hazardsflammable, toxic
R/S statementR: 10-36 S: 38-20-23
Flash point31 °C
Except where noted otherwise, data are given for
materials in their standard state
(at 25 C, 100 kPa)
Styrene, also known as vinyl benzene as well as many other names (see table), is an organic compound with the chemical formula C6H5CH=CH2. Under normal conditions, this aromatic hydrocarbon is an oily liquid. It evaporates easily and has a sweet smell, although common impurities confer a less pleasant odor. Styrene is an important precursor to polystyrene, an important synthetic material.

Occurrence and history

Low levels of styrene occur naturally in plants as well as a variety of foods such as fruits, vegetables, nuts, beverages, and meats. It is produced in industrial quantities from benzene and ethylene via the intermediate ethylbenzene. The production of styrene in the United States was increased dramatically during the 1940's to supply the war needs for synthetic rubber. Because the styrene molecule has a vinyl group with a double bond, it can polymerize. It is used as a monomer to make plastics such as polystyrene, ABS, styrene-butadiene (SBR) rubber, styrene-butadiene latex, SIS (styrene-isoprene-styrene), S-EB-S (styrene-ethylene/butylene-styrene), styrene-divinylbenzene (S-DVB), and unsaturated polyesters. These materials are used in rubber, plastic, insulation, fiberglass, pipes, automobile parts, food containers, and carpet backing.

Styrene is classified as a possible human carcinogen by the Environmental Protection Agency (EPA) and by the International Agency for Research on Cancer (IARC). (According to [1]

Production

Dehydrogenation of ethylbenzene

Styrene is most commonly produced by the catalytic dehydrogenation of ethylbenzene. Ethylbenzene is mixed in the gas phase with 10–15 times its volume in high-temperature steam, and passed over a solid catalyst bed. Most ethylbenzene dehydrogenation catalysts are based on iron(III) oxide, promoted by several percent potassium oxide or potassium carbonate. On this catalyst, an endothermic, reversible chemical reaction takes place.

Styrene


Steam serves several roles in this reaction. It is the source of heat for powering the endothermic reaction and it continuously removes coke that tends to form on the iron oxide catalyst through the water/gas shift reaction C + 2H2O --> CO2 + 2H2. The potassium promoter on the catalyst is present to enhance this decoking reaction. The steam injected with the reactor feed also dilutes the concentration of the reactant and products in the reaction mixture, shifting the position of chemical equilibrium towards products. A typical styrene plant operates two or three reactors in series and operates under vacuum conditions to enhance the conversion and selectivity of the reaction. Typical per-pass conversions are on the order of 65% if two reactors are used and 70% to 75% if three reactors are used. Selectivity to styrene is 93% to as high as 97% depending upon reactor operating pressure, catalyst and conversion. The main byproducts of the reaction are benzene and toluene, these are somewhat easily removed by distillation. The separation of styrene from the remaining ethylbenzene requires tall distillation towers and high reflux ratios, because styrene and ethylbenzene have similar boiling points (145 °C for styrene, 136 °C for ethylbenzene). Distillation and separation of the crude styrene into product styrene is also complicated by the fact that the temperatures involved in the distillation of styrene initiate the polymerization of the styrene. To combat this, early styrene plants added elemental sulfur to inhibit the rate of polymerization. During the 1970s additive chemicals consisting of phenol based retarders were developed. These and the more recently developed free radical inhibitor chemicals are now added prior to distillation. These additives limit the rate of polymerization and allow for the separation and purification of the product styrene.

Improving conversion and so reducing the amount of ethylbenzene that must be separated is the chief impetus for researching alternative routes to styrene. Other than the POSM process, none of these routes like obtaining styrene from butadiene have been commercially demonstrated.

Via ethylbenzenehydroperoxide

Commercially styrene is also co-produced with propylene oxide in a process known as POSM (Lyondell Chemical Company) or SM/PO (Shell) for Propylene Oxide / Styrene Monomer. In this process ethylbenzene is reacted with oxygen to form the hydroperoxide of ethylbenzene. This hydroperoxide is then used to oxidize propylene to propylene oxide. The resulting phenylethanol is dehydrated to give styrene:
C6H5CH2CH3 + O2 → C6H5CH2CH2O2H
C6H5CH2CH2O2H + CH3CH=CH2 → C6H5CH2CH2OH + CH3CHCH2O
C6H5CH2CH2OH → C6H5CH=CH2 + H2O

Laboratory synthesis

A laboratory synthesis of styrene entails the decarboxylation of cinnamic acid.[1]

via Engineered Catalyst

Researchers at Exelus Inc. (Livingston NJ, USA) produced styrene directly from toluene and methanol in a single step, at 425 degrees C and atmospheric pressure, by forcing these components through a proprietary zeolitic material which catalyzes them into styrene and ethylbenzene in a 9:1 mixture.[2]

Health effects

Styrene is a toxin, an irritant, and a potential carcinogen. See MSDS.

References

1. ^ Abbott, T. W.; Johnson, J. R. "Phenylethylene [Styrene]" Organic Syntheses, Coll. Vol. 1, p.440 (1941).
2. ^ Stephen K. Ritter, Chemical & Engineering News, 19 March 2007, p.46
IUPAC nomenclature is a system of naming chemical compounds and of describing the science of chemistry in general. It is developed and kept up to date under the auspices of the International Union of Pure and Applied Chemistry (IUPAC).
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CAS registry numbers are unique numerical identifiers for chemical compounds, polymers, biological sequences, mixtures and alloys. They are also referred to as CAS numbers, CAS RNs or CAS #s.
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smiles

File extension: .smi
Type of format: chemical file format

The simplified molecular input line entry specification or SMILES
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Occupational safety and health (OSH) is a cross-disciplinary area concerned with protecting the safety, health and welfare of people engaged in work or employment. As a secondary effect, OSH may also protect co-workers, family members, employers, customers, suppliers, nearby
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Risk and Safety Statements, also known as R/S statements, R/S numbers, R/S phrases, and R/S sentences, is a system of hazard codes and phrases for labeling dangerous chemicals and compounds.
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The flash point of a flammable liquid is the lowest temperature at which it can form an ignitable mixture in air. At this temperature the vapor may cease to burn when the source of ignition is removed.
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standard state of a material is its state at 1 bar (100 kilopascals exactly). This pressure was changed from 1 atm (101.325 kilopascals) by IUPAC in 1990.[1] The standard state of a material can be defined at any given temperature, most commonly 25 degrees Celsius,
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organic compounds]] An organic compound is any member of a large class of chemical compounds whose molecules contain carbon; for historical reasons discussed below, a few types of compounds such as carbonates, carbon oxides and cyanides, as well as elemental carbon are
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A chemical formula is a concise way of expressing information about the atoms that constitute a particular chemical compound. A chemical formula is also a short way of showing how a chemical reaction occurs.
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An aromatic hydrocarbon (abbreviated as AH) or arene [1] is a hydrocarbon, the molecular structure of which incorporates one or more planar sets of six carbon atoms that are connected by delocalised electrons numbering the same as if they consisted of alternating
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Liquid is one of the four principal states of matter. A liquid is a fluid that can freely form a distinct surface at the boundaries of its bulk material.

Characteristics

A liquid's shape is determined by, not confined to, the container it fills.
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Polystyrene IPA: /ˌpɒliˈstaɪriːn/ is a polymer made from the monomer styrene, a liquid hydrocarbon that is commercially manufactured from petroleum by the chemical industry.
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Benzene, or Benzol (see also Benzine) is an organic chemical compound with the formula C6H6. It is sometimes abbreviated Ph–H. Benzene is a colorless and inflammable liquid with a sweet smell and a relatively high melting point.
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Ethylene (or IUPAC name ethene) is the chemical compound with the formula C2H4. It is the simplest alkene. Because it contains a double bond, ethylene is called an unsaturated hydrocarbon or an olefin.
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Ethylbenzene is an organic chemical compound which is an aromatic hydrocarbon. Its major use is in the petrochemical industry as an intermediate compound for the production
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Synthetic rubber is any type of artificially made polymer material which acts as an elastomer. An elastomer is a material with the mechanical (or material) property that it can undergo much more elastic deformation under stress than most materials and still return to its previous
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molecule is defined as a sufficiently stable electrically neutral group of at least two atoms in a definite arrangement held together by strong chemical bonds.[1][2] In organic chemistry and biochemistry, the term molecule
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A vinyl compound is any organic compound that contains a vinyl group (also called ethenyl), −CH=CH2. These are derivatives of ethylene, CH2=CH2, with one hydrogen atom substituted with some other group.
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Covalent bonding is a form of chemical bonding that is characterized by the sharing of pairs of electrons between atoms, or between atoms and other covalent bonds.
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alkene polymerisation, in which each Styrene monomer unit's double bond reforms as a single bond with another styrene monomer and forms polystyrene.]] In polymer chemistry, polymerization
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A monomer (from Greek mono "one" and meros "part") is a small molecule that may become chemically bonded to other monomers to form a polymer.

Examples of monomers are hydrocarbons such as the alkene and arene homologous series.
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Polystyrene IPA: /ˌpɒliˈstaɪriːn/ is a polymer made from the monomer styrene, a liquid hydrocarbon that is commercially manufactured from petroleum by the chemical industry.
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Acrylonitrile butadiene styrene, or ABS, (chemical formula (C8H8· C4H6·C3H3N)n) is a common thermoplastic used to make light, rigid, molded products such as piping, musical instruments (most notably
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Styrene-Butadiene (SBR) is an elastomeric copolymer consisting of styrene and butadiene. It has good abrasion resistance and good aging stability. SBR is stable in: mineral oils, fats, aliphatic, aromatic and chlorinated hydrocarbons.
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Natural rubber is an elastic hydrocarbon polymer that naturally occurs as a milky colloidal suspension, or latex, in the sap of some plants. It can also be synthesized. The entropy model of rubber was developed in 1934 by Werner Kuhn.
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Divinylbenzene, systematically known as 1,3-diethenylbenzene, consists of a benzene ring bonded to two vinyl groups. It is derived from styrene (vinyl benzene), having 2 vinyl groups whereas styrene has one.
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Fiberglass (also called fibreglass and glass fibre) is material made from extremely fine fibers of glass. It is used as a reinforcing agent for many polymer products; the resulting composite material, properly known as fiber-reinforced polymer (FRP) or
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automobile (from Greek auto, self and Latin mobile moving, a vehicle that moves itself rather than being moved by another vehicle or animal) or motor car (usually shortened to just car) is a wheeled passenger vehicle that carries its own motor.
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catalysis is the acceleration (increase in rate) of a chemical reaction by means of a substance called a catalyst, which is itself not consumed by the overall reaction.
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Dehydrogenation is a chemical reaction that involves the elimination of hydrogen (H2). It is the reverse process of hydrogenation. Dehydrogenation reactions may be either large scale industrial processes or smaller scale laboratory procedures.
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