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N-butane CAS 106-97-8

It can be dehydrogenated to butadiene, oxidized to acetic acid and maleic anhydride, and can also react with sulfur to produce thiophene. It is mainly used as a standard gas for analysis and detection instruments in petrochemical enterprises. ...

Release time：2025-04-26

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N-butane CAS 106-97-8

It can be dehydrogenated to butadiene, oxidized to acetic acid and maleic anhydride, and can also react with sulfur to produce thiophene.

It is mainly used as a standard gas for analysis and detection instruments in petrochemical enterprises.

Aerosol; inflator. ;

In addition to being used as a direct fuel, N-butane CAS 106-97-8 is also used as a solvent, refrigerant and raw material for organic synthesis. Butane is dehydrogenated to butene or butadiene in the presence of a catalyst, isomerized to isobutane in the presence of sulfuric acid or anhydrous hydrofluoric acid, and is catalytically dehydrogenated to isobutane. Isobutane can be used as an alkylating agent to react with olefins to produce branched hydrocarbons with good anti-explosion properties. Butane can be catalytically produced to produce maleic anhydride, acetic acid, acetaldehyde, etc. Halogenation can produce halogenated butane. Nitration can produce nitrobutane. High-temperature catalysis can produce carbon disulfide. Steam reforming can produce hydrogen. In addition, butane can also be used as a blending agent for automotive fuel to control volatile components; it can also be used as a deasphalting agent for heavy oil refining; an oil well wax sinking agent; a plugging agent for secondary oil recovery, a resin foaming agent, a refrigerant for converting seawater to fresh water, and a solvent for olefin polymerization.

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