Catalyst for purification of waste incineration flue gas and preparation method of catalyst
A flue gas purification, waste incineration technology, applied in physical/chemical process catalysts, chemical instruments and methods, metal/metal oxide/metal hydroxide catalysts, etc., can solve the problem of not reducing the total amount of dioxins, etc. To achieve the effect of enhancing the capture energy, increasing the activity and lowering the price
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[0036]The invention provides a method for preparing a catalyst for purifying waste incineration flue gas, comprising the following steps:
[0037] Calculate according to the amount of active components and coagents and weigh the corresponding precursors, wherein: the precursors of the active components are ammonium metavanadate, dinitrosodiammine platinum, and sodium tungstate; The body is manganese nitrate tetrahydrate, iron nitrate, copper nitrate, tin oxide, cerium nitrate; the precursor of carrier titanium dioxide is tetrabutyl titanate or titanium alkoxide;
[0038] Step 1. Add glacial acetic acid and absolute ethanol to deionized water, stir and mix evenly, as solution A;
[0039] Step 2, dissolving tetrabutyl titanate or titanium alkoxide in absolute ethanol and stirring evenly, as solution B;
[0040] Step 3, mixing solution A and solution B to obtain solution C, and adding ammonium metavanadate, dinitrosodiammine platinum and oxalic acid to solution C under stirring ...
Embodiment 1
[0050] A catalyst for purifying waste incineration flue gas, with vanadium pentoxide, platinum oxide, and tungsten oxide as active components, gamma-alumina, titanium dioxide, and carbon nanotubes as carriers, and manganese oxide, iron oxide, copper oxide, The mixture of tin oxide and cerium oxide is active auxiliary agent;
[0051] Among them, the proportion of γ-alumina in the carrier is 20wt%, the proportion of titanium dioxide is 50wt%, and the proportion of carbon nanotubes is 30wt%. Based on the total weight of the support, the loading capacity of vanadium in the active component is 1.5 wt%, the loading amount of platinum is 0.5wt%, the loading amount of tungsten is 2wt%, and the loading amount of coagent is 0.5wt%.
[0052] Calculate based on the amount of vanadium pentoxide, platinum oxide, tungsten oxide, titanium dioxide, manganese oxide, iron oxide, copper oxide, tin oxide, and cerium oxide, and weigh the corresponding precursor materials, ammonium metavanadate and ...
Embodiment 2
[0055] A catalyst for purifying waste incineration flue gas, with vanadium pentoxide, platinum oxide, and tungsten oxide as active components, gamma-alumina, titanium dioxide, and carbon nanotubes as carriers, and manganese oxide, iron oxide, copper oxide, The mixture of tin oxide and cerium oxide is active auxiliary agent;
[0056] Among them, the proportion of γ-alumina in the carrier is 30wt%, the proportion of titanium dioxide is 40wt%, and the proportion of carbon nanotubes is 30wt%. Based on the total weight of the support, the loading capacity of vanadium in the active component is 1.5 wt%, the loading amount of platinum is 0.5wt%, the loading amount of tungsten is 2wt%, and the loading amount of coagent is 0.5wt%.
[0057] Calculate based on the amount of vanadium pentoxide, platinum oxide, tungsten oxide, titanium dioxide, manganese oxide, iron oxide, copper oxide, tin oxide, and cerium oxide, and weigh the corresponding precursor materials, ammonium metavanadate and ...
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