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Auteur Michael P. Latusek

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Catalytic wet oxidation of lactose / Yah Nan Chia in Industrial & engineering chemistry research, Vol. 47 n°12 (Juin 2008)

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[article]
in Industrial & engineering chemistry research > Vol. 47 n°12 (Juin 2008) . - p. 4049–4055
Titre : Catalytic wet oxidation of lactose
Type de document : texte imprimé
Auteurs : Yah Nan Chia, Auteur ; Michael P. Latusek, Auteur ; Joseph H. Holles, Auteur
Année de publication : 2008
Article en page(s) : p. 4049–4055
Note générale : Bibliogr. p. 4054-4055
Langues : Anglais (eng)
Mots-clés : Lactose -- catalytic wet oxidation; BiPd/C catalyst
Résumé : The catalytic wet oxidation of lactose to carbon dioxide/water and to a value-added product, lactobionic acid, has been demonstrated in a flow reactor. Lactose (milk sugar) is a low value byproduct of the dairy industry and makes up the largest part of the solids in cheese whey. Costs associated with cheese whey disposal are driving the need to develop alternative disposal methods. Pt/Al2O3, CeMn mixed-metal oxides, and Pt/CeMn catalysts have all been shown to effectively convert lactose to carbon dioxide and water at temperatures up to 443 K and pressures of 100 psig. Pt/CeMn demonstrated the lowest level of side-product formation. A BiPd/C catalyst was shown to convert essentially all lactose to lactobionic acid at similar temperature and pressure. Lactobionic acid selectivity was a strong function of oxygen concentration in the feed. The BiPd/C also produced a high yield of lactobionic acid at lower pH and higher temperatures than previously reported.
En ligne : http://pubs.acs.org/doi/abs/10.1021/ie701779u

[article] Catalytic wet oxidation of lactose [texte imprimé] / Yah Nan Chia, Auteur ; Michael P. Latusek, Auteur ; Joseph H. Holles, Auteur . - 2008 . - p. 4049–4055.
Bibliogr. p. 4054-4055
Langues : Anglais (eng)
in Industrial & engineering chemistry research > Vol. 47 n°12 (Juin 2008) . - p. 4049–4055
Mots-clés : Lactose -- catalytic wet oxidation; BiPd/C catalyst
Résumé : The catalytic wet oxidation of lactose to carbon dioxide/water and to a value-added product, lactobionic acid, has been demonstrated in a flow reactor. Lactose (milk sugar) is a low value byproduct of the dairy industry and makes up the largest part of the solids in cheese whey. Costs associated with cheese whey disposal are driving the need to develop alternative disposal methods. Pt/Al2O3, CeMn mixed-metal oxides, and Pt/CeMn catalysts have all been shown to effectively convert lactose to carbon dioxide and water at temperatures up to 443 K and pressures of 100 psig. Pt/CeMn demonstrated the lowest level of side-product formation. A BiPd/C catalyst was shown to convert essentially all lactose to lactobionic acid at similar temperature and pressure. Lactobionic acid selectivity was a strong function of oxygen concentration in the feed. The BiPd/C also produced a high yield of lactobionic acid at lower pH and higher temperatures than previously reported.
En ligne : http://pubs.acs.org/doi/abs/10.1021/ie701779u