Transformation of cyclohexanone on PtHZSM5 catalysts — reaction scheme

Q4 Chemical Engineering 分子催化 Pub Date : 1994-08-12 DOI:10.1016/0304-5102(94)00052-2
F. Alvarez , Magnoux , F.Ramôa Ribeiro , M. Guisnet
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引用次数: 26

Abstract

The transformation of cyclohexanone was carried out on PtHZSM5 catalysts under the following conditions: flow reactor, 473 K, pressures of cyclohexanone and hydrogen equal to 0.25 and 0.75 bar respectively. Six families of products were identified by GC or GC-MS analysis: C6 cyclic hydrocarbons 1, C12 bicyclic hydrocarbons 2 (e.g., cyclohexylcyclohexene), cyclohexenylcyclohexanone 3, cyclohexylcyclohexanone 4, phenylcyclohexanone 5, tricyclic ketones 6 (e.g., biscyclohexenylcyclohexanone). A reaction scheme is proposed to explain the formation of these products. Compounds 1 would result from the following steps: hydrogenation of cyclohexanone (probably in the enol form) on Pt sites, dehydration of cyclohexanol on the acid sites, hydrogenation or dehydrogenation of cyclohexene on Pt sites. Compounds 2 are mainly formed through successive transformations of 4: hydrogenation, dehydration…; 3 results from aldolisation of cyclohexanone followed by dehydration of the resulting alcohol, 4 from hydrogenation of 3, 5 from dehydrogenation of 3. The compounds 6 result from aldolisation of 3 with cyclohexanone followed by dehydration, hydrogenation and dehydrogenation steps. The dehydration of alcohols is much more rapid than aldolisation and hydrogenation—dehydrogenation steps. On a 0.2 PtHZSM5 catalyst with a platinum dispersion greater than 70%, aldolisation is slower than hydrogenation—dehydrogenation steps. The deactivation of the catalyst affects more the acid sites than the metallic ones.

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环己酮在PtHZSM5催化剂上的转化反应方案
在PtHZSM5催化剂上,环己酮在流动反应器、473 K、环己酮和氢的压力分别为0.25和0.75 bar的条件下进行转化。通过GC或GC- ms分析鉴定出6个族的产物:C6环烃1、C12双环烃2(如环己基环己烯)、环己基环己酮3、环己基环己酮4、苯基环己酮5、三环酮6(如双环己基环己酮)。提出了一种反应方案来解释这些产物的形成。化合物1将由以下步骤产生:环己酮(可能以烯醇形式)在Pt位点加氢,环己醇在酸位点脱水,环己烯在Pt位点加氢或脱氢。化合物2主要通过4的连续转化形成:氢化、脱水…;3个是由环己酮醛化后脱水得到的醇,4个是由3氢化得到的,5个是由3脱氢得到的。化合物6是由3与环己酮醛化,然后脱水、加氢和脱氢步骤得到的。醇的脱水比醛化和加氢-脱氢步骤要快得多。在铂分散度大于70%的0.2 PtHZSM5催化剂上,醛化反应比加氢-脱氢反应慢。催化剂失活对酸位的影响大于对金属位的影响。
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来源期刊
分子催化
分子催化 Chemical Engineering-Catalysis
CiteScore
1.50
自引率
0.00%
发文量
2959
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Author index Subject index Hydrolysis of sucrose by dealuminated Y-zeolites Synthesis and application of organophilic polystyrene-montmorillonite supported onium salts in organic reactions Effect of the reduction temperature on the selectivity of the high temperature reaction of acetone and hydrogen over alumina and titania supported nickel and cobalt catalysts
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