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Issue
Korean Journal of Chemical Engineering,
Vol.27, No.5, 1423-1427, 2010
Catalytic mechanism and reaction pathway of acetone ammoximation to acetone oxime over TS-1
Li Z, Chen R, Jin W, Xing W
A series of two-step reactions and several special experiments were designed and carried out to discover the reaction pathway of acetone ammoximation to acetone oxime over titanium silicalites-1 (TS-1) employing 25 wt% ammonia and 30 wt% hydrogen peroxide as the ammoximation agents. The experimental results show that the acetone oxime can form even if there is no direct contact between acetone and TS-1 catalysts, indicating the hydroxylamine route may be the most important catalytic mechanism for the reaction. HPLC, GC/MS and ion chromatography characterization results show that hydrogen peroxide can oxidize acetone oxime to acetone, nitrite and nitrate in the presence of TS-1. In addition, nitrite and nitrate can form in the reaction of H2O2 and NH3 over TS-1. Based on these results, a possible overall reaction pathway of acetone ammoximation over TS-1 has been proposed.
Keywords: Acetone; Acetone Oxime; Ammoximation; TS-1; Hydrogen Peroxide
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