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homogeneous vs hetero |
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{| class="wikitable" |
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! Substrate !! Process !! Catalyst !! Product !! Application |
! Substrate !! Process !! Catalyst ([[homogeneous catalysis|homogeneous]] or [[heterogeneous catalysis|heterogeneous]] !! Product !! Application |
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| [[sulfur dioxide]] || [[contact process]] ||[[vanadium pentoxide]] |
| [[sulfur dioxide]] || [[contact process]] ||[[vanadium pentoxide]]<br>(heterogeneous)|| [[sulfuric acid]] || fertilizer production |
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| [[ammonia]] || [[Ostwald process]]|| [[platinum]]<br>(heterogeneous)|| [[nitric acid]] || basic chemicals, [[TNT]] |
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| [[hydrogen sulfide]] || [[Claus process]] || [[vanadium pentoxide]]<br>(heterogeneous) || [[sulfur]] || remediation of byproduct of<br> [[oil refinery]] |
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| [[methane]] <br> [[ammonia]] || [[Andrussow process]] || [[platinum]] || [[hydrogen cyanide]] || basic chemicals, gold mining extractant |
| [[methane]] <br> [[ammonia]] || [[Andrussow process]] || [[platinum]]<br>(heterogeneous) || [[hydrogen cyanide]] || basic chemicals, gold mining extractant |
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| [[ethylene]] || [[epoxidation]] || mixed Ag oxides || [[ethylene oxide]] || basic chemicals, surfactants |
| [[ethylene]] || [[epoxidation]] || mixed Ag oxides<br>(heterogeneous) || [[ethylene oxide]] || basic chemicals, surfactants |
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| [[cyclohexane]] || K- |
| [[cyclohexane]] || K-A process || Co and Mn salts<br>(homogeneous)|| [[cyclohexanol]]<br> [[cyclohexanone]] || nylon precursor |
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| [[ethylene]] || [[Wacker process]] || Pd and Cu salts |
| [[ethylene]] || [[Wacker process]] || Pd and Cu salts<br>(homogeneous)|| [[acetaldehyde]] || basic chemicals |
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| [[para-xylene]] || terephthalic acid synthesis || Mn and Co salts |
| [[para-xylene]] || terephthalic acid synthesis || Mn and Co salts<br>(homogeneous)|| [[terephthalic acid]] || plastic precursor |
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| [[propylene]]<br> [[ammonia]] || [[ammoxidation]] || Bi-Mo-oxides || [[acrylonitrile]] || plastic precursor |
| [[propylene]]<br> [[ammonia]] || [[ammoxidation]] || Bi-Mo-oxides<br>(heterogeneous) || [[acrylonitrile]] || plastic precursor |
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| [[methanol]] || [[Formox process]] || Fe-Mo-oxides || [[formaldehyde]] || basic chemicals, alkyd resins |
| [[methanol]] || [[Formox process]] || Fe-Mo-oxides<br>(heterogeneous) || [[formaldehyde]] || basic chemicals, alkyd resins |
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| [[butane]] || Maleic anhydride process || vanadium phosphates<br>(heterogeneous) || [[maleic anhydride]] || plastics, alkyd resins |
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==Catalysts== |
==Catalysts== |
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===Applied catalysis=== |
===Applied catalysis=== |
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Oxidation catalysis is conducted by both [[heterogeneous catalysis]] and [[homogeneous catalysis]]. In the heterogeneous processes, gaseous substrate and oxygen (or air) are passed over solid catalysts. Typical catalysts are platinum, and redox-active oxides of iron and molybdenum. In many cases, catalysts are modified with a host of additives that enhance rates or selectivities. |
Oxidation catalysis is conducted by both [[heterogeneous catalysis]] and [[homogeneous catalysis]]. In the heterogeneous processes, gaseous substrate and oxygen (or air) are passed over solid catalysts. Typical catalysts are platinum, and redox-active oxides of iron, vanadium, and molybdenum. In many cases, catalysts are modified with a host of additives that enhance rates or selectivities. |
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Important homogeneous catalysts for the oxidation of organic compounds are [[carboxylate]]s of cobalt, iron, and manganese. To confer good solubility in the organic solvent, these catalysts are often derived from [[naphthenic acid]]s and [[ethylhexanoic acid]], which are highly lipophilic. These catalysts initial radical chain reactions that lead to the combination of organic radicals and oxygen to give [[hydroperoxide]] intermediates.<ref> Mario G. Clerici, Marco Ricci and Giorgio Strukul "Formation of C–O Bonds by Oxidation" in Metal-catalysis in Industrial Organic Processes |
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Gian Paolo Chiusoli, Peter M Maitlis, Eds. 2006, RSC. ISBN: 978-0-85404-862-5.</ref> |
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====Fine chemicals==== |
====Fine chemicals==== |
Revision as of 19:16, 2 June 2013
Catalytic oxidation are processes that oxidize compounds using catalysts. Common applications involve oxidation of organic compounds by the oxygen in air. Such processes are conducted on a large scale for the remediation of pollutants, production of valuable chemicals, and the production of energy.[1]
Industrially important examples include both inorganic and organic substrates.
Substrate | Process | Catalyst (homogeneous or heterogeneous | Product | Application |
---|---|---|---|---|
sulfur dioxide | contact process | vanadium pentoxide (heterogeneous) |
sulfuric acid | fertilizer production |
ammonia | Ostwald process | platinum (heterogeneous) |
nitric acid | basic chemicals, TNT |
hydrogen sulfide | Claus process | vanadium pentoxide (heterogeneous) |
sulfur | remediation of byproduct of oil refinery |
methane ammonia |
Andrussow process | platinum (heterogeneous) |
hydrogen cyanide | basic chemicals, gold mining extractant |
ethylene | epoxidation | mixed Ag oxides (heterogeneous) |
ethylene oxide | basic chemicals, surfactants |
cyclohexane | K-A process | Co and Mn salts (homogeneous) |
cyclohexanol cyclohexanone |
nylon precursor |
ethylene | Wacker process | Pd and Cu salts (homogeneous) |
acetaldehyde | basic chemicals |
para-xylene | terephthalic acid synthesis | Mn and Co salts (homogeneous) |
terephthalic acid | plastic precursor |
propylene ammonia |
ammoxidation | Bi-Mo-oxides (heterogeneous) |
acrylonitrile | plastic precursor |
methanol | Formox process | Fe-Mo-oxides (heterogeneous) |
formaldehyde | basic chemicals, alkyd resins |
butane | Maleic anhydride process | vanadium phosphates (heterogeneous) |
maleic anhydride | plastics, alkyd resins |
Catalysts
Applied catalysis
Oxidation catalysis is conducted by both heterogeneous catalysis and homogeneous catalysis. In the heterogeneous processes, gaseous substrate and oxygen (or air) are passed over solid catalysts. Typical catalysts are platinum, and redox-active oxides of iron, vanadium, and molybdenum. In many cases, catalysts are modified with a host of additives that enhance rates or selectivities.
Important homogeneous catalysts for the oxidation of organic compounds are carboxylates of cobalt, iron, and manganese. To confer good solubility in the organic solvent, these catalysts are often derived from naphthenic acids and ethylhexanoic acid, which are highly lipophilic. These catalysts initial radical chain reactions that lead to the combination of organic radicals and oxygen to give hydroperoxide intermediates.[2]
Fine chemicals
Many selective oxidation catalysts have been developed for producing fine chemicals of pharmaceutical or academic interest. Nobel-prize winning examples are the Sharpless epoxidation and the Sharpless dihydroxylation.
Biological catalysis
Catalytic oxidations are common in biology, especially since aerobic life subsists on energy obtained by oxidation of organic compounds by air. In contrast to the industrial processes, which are optimized for producing chemical compounds, energy-producing biological oxidations are optimized to produce energy. Many metalloenzymes mediate these reactions.
Fuel cells, etc
Fuel cells rely on oxidation of organic compounds (or hydrogen) using catalysts. Catalytic heaters generate flameless heat from a supply of combustible fuel and oxygen from air as oxidant.
References
- ^ Gerhard Franz, Roger A. Sheldon "Oxidation" in Ullmann's Encyclopedia of Industrial Chemistry, Wiley-VCH, Weinheim, 2000 doi:10.1002/14356007.a18_261
- ^ Mario G. Clerici, Marco Ricci and Giorgio Strukul "Formation of C–O Bonds by Oxidation" in Metal-catalysis in Industrial Organic Processes Gian Paolo Chiusoli, Peter M Maitlis, Eds. 2006, RSC. ISBN: 978-0-85404-862-5.
External links
- https://portal.navfac.navy.mil/portal/page/portal/NAVFAC/NAVFAC_WW_PP/NAVFAC_NFESC_PP/ENVIRONMENTAL/ERB/THERMCATOX
- http://www.frtr.gov/matrix2/section4/4-59.html