초록 ▼

A catalyst for effective oxidation of volatile organic compounds (VOCs) includes 0.010-2 wt. % of a noble metal such as platinum in combination with 0.5-15 wt. % of a transition metal oxide such as chromium oxide (Cr.sub.2 O.sub.3), with at least the noble metal being deposited as a thin outer layer

A catalyst for effective oxidation of volatile organic compounds (VOCs) includes 0.010-2 wt. % of a noble metal such as platinum in combination with 0.5-15 wt. % of a transition metal oxide such as chromium oxide (Cr.sub.2 O.sub.3), with at least the noble metal being deposited as a thin outer layer or shell not exceeding 0.10 mm thickness on a porous inert support such as alumina or silica having surface area of 10-400 m.sup.2 /g. The catalyst is made by adding the transition metal oxide such as chromium oxide (Cr.sub.2 O.sub.3) to the support material particles, and then subsequently mixing a solution of ammonium platinum nitrate with a suitable carrier liquid so as to form a "cluster" structure on the support material and which limits penetration of the active noble metal into the porous support, then drying, reducing, and calcining the metals-loaded support material. This catalyst composition and structure is highly effective for the oxidative destruction of VOCs in vapor form at concentrations of 1 ppm--5 vol. % and at reaction temperatures of 50.degree.-500.degree. C., 0-600 psig pressure, and space velocity of 1000-200,000 hr.sup.-1 to produce essentially only carbon dioxide and water products.

대표청구항 ▼

[ What is claimed is:] [1.] A catalyst composition useful for catalytic oxidative destruction of volatile organic compounds, the catalyst comprising:an inert porous support material having total surface area of 10-400 m.sup.2 /g;a transition metal oxide selected from the metals group consisting of c

[ What is claimed is:] [1.] A catalyst composition useful for catalytic oxidative destruction of volatile organic compounds, the catalyst comprising:an inert porous support material having total surface area of 10-400 m.sup.2 /g;a transition metal oxide selected from the metals group consisting of chromium, cobalt, copper, cerium and iron provided on the porous support material in concentration of 0.5-15 wt. % of the catalyst; andan active noble metal selected from the group consisting of palladium, platinum, rhodium, and ruthenium additionally provided on said support material in concentration of 0.010-2.0 wt. % of the catalyst in a thin outer layer having thickness not exceeding about 0.10 mm; whereby at least the active noble metal exists in the thin layer on only the outer surface of the support material so as to minimize mass transfer resistance from reactant compounds and provide high catalytic activity while also minimizing the weight percent of the active metals in the catalyst. [7.] A method for making a catalyst useful for effective catalytic oxidative destruction of volatile organic compounds, comprising the steps of:(a) providing an aqueous solution of chromium nitrate, adding the solution to a porous support material having surface area of 10-400 m.sup.2 /g, then drying and calcining the metal loaded support material;(b) mixing ammonium platinum nitrate aqueous solution with an alcohol carrier liquid;(c) contacting the metal loaded support material with the platinum nitrate solution so as to form clusters and limit diffusion of the platinum solution into the porous support material, and restrict the platinum to only a thin outer layer on the support material, and evaporating the carrier liquid;(d) reducing the metal loaded support material with a hydrogen-containing gas and converting the platinum oxide to its metal state; and(e) calcining the metal loaded support material in air so as to produce the active oxidative catalyst. [13.] A process for catalytically oxidizing volatile organic compounds (VOCs) having a concentration of between about 1 ppm and 5 vol % in an oxygen-containing gas which is free of any catalyst poisoning material, the process comprising:providing a feedstream containing dilute concentration of at least one volatile organic compound in gaseous form and contacting the feedstream under reaction conditions with a catalyst containing:an inert porous support material having total surface area of 10-400 m.sup.2 /g, a transition metal oxide selected from the group consisting of chromium, cobalt and copper provided on the porous support material in concentration of 0.5-15 wt. % of the catalyst; andan active noble metal consisting of platinum having concentration of 0.010-2.0 wt. % of the catalyst in a thin outer layer having thickness not exceeding about 0.10 mm and in interaction with the transition metal oxide, wherein at least the active noble metal exists in the thin layer on only the outer surface of the support material so as to minimize mass transfer resistance from reactant compounds and provide high catalytic activity while also minimizing the weight percent of the active metal in the catalyst, the feedstream contacting the catalyst under reaction conditions of 50.degree.-500.degree. C. temperature, 0-600 psig pressure, and space velocity of 1000-200,000 hr.sup.-1 ; andoxidizing the volatile organic compounds contained in the feedstream to yield essentially only carbon dioxide and water products. The catalytic oxidation process of claim 13, wherein the volatile organic compound in the feedstream is selected from the group consisting of acetates, alcohols alkanes, alkenes, aldehydes, aromatics, carboxylic acids, ketones, and halogenated hydrocarbons and mixtures thereof. The catalytic oxidation process of claim 13, wherein the feedstream reaction conditions are 100.degree.-400.degree. C. temperature, 0-100 psig pressure and space velocity of 3000-100,000 h.sup.-1. A process for catalytically oxidizing volatile organic compounds (VOCs) having a concentration of between about 1 ppm and 5 vol% in an oxygen-containing gas which is free of any catalyst poisoning material, the process comprising:(a) providing a feedstream containing dilute concentrations of volatile organic compounds in gaseous form, and contacting the feedstream selected from the group consisting of acetates, alcohols, alkanes, alkenes, aldehydes, aromatics, carboxylic acids, ketones, halogenated hydrocarbons and mixtures thereof under reaction conditions with a catalyst containing:an inert porous support material having total surface area of 50-300 m.sup.2 /g, a transition metal provided on the porous support material in concentration of 1-10 wt. % of the catalyst;an active noble metal having concentration of 0.012-1.0 wt. % of the catalyst in a thin outer layer having thickness not exceeding about 0.10 mm and in combination with the transition metal wherein at least the active noble metal exists in the thin layer on only the outer surface of the support material so as to minimize mass transfer resistance from reactant compounds and provide high catalytic activity while also minimizing the weight percent of the active metal in the catalyst,(b) contacting the catalyst with the feedstream under reaction conditions of 100.degree.-400.degree. C. temperature, 0-100 psig pressure, and space velocity of 3000-100,000 hr.sup.1 ; and(c) oxidizing the volatile organic compounds contained in the feedstream to yield essentially carbon dioxide and water products.