Method and device for recycling Ti and W from waste flue gas denitrification catalyst
A denitrification catalyst and waste flue gas technology, applied in chemical recovery, titanium dioxide, titanium oxide/hydroxide, etc., can solve the problems of unsuitability for industrial production, high energy consumption, low extraction purity and extraction efficiency
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Embodiment 1
[0048] Embodiment 1 of the present invention: a method for recovering Ti and W from waste flue gas denitrification catalyst, such as figure 1 shown, including the following steps:
[0049] S01, blow the waste flue gas denitrification catalyst with compressed air for 20-23 minutes for each module to remove the dust in the channel;
[0050] S02, use a high-pressure water gun to flush the catalyst after dust removal, the flushing time of each module is 15-20min, and the pressure is 8-12Mpa, to further remove the dust in the channel;
[0051] S03, drying the washed catalyst;
[0052] S1, pulverizing the catalyst and adding concentrated sulfuric acid for acidolysis, adding water after acidolysis to obtain a titanyl sulfate solution, which specifically includes the following steps:
[0053] S11, crushing the catalyst into catalyst powder of 160-180 mesh;
[0054] S12, put the catalyst powder into the acid hydrolysis tank made of lead, add 88%-90% concentrated sulfuric acid accord...
Embodiment 2
[0066]Embodiment 2: a kind of method that reclaims Ti and W from waste flue gas denitrification catalyst, such as figure 1 shown, including the following steps:
[0067] S01, blow the waste flue gas denitrification catalyst with compressed air, and blow each module for 15-20 minutes to remove the dust in the channel;
[0068] S02, use a high-pressure water gun to flush the catalyst after dust removal, the flushing time of each module is 20-25min, and the pressure is 5-8Mpa, to further remove the dust in the channel;
[0069] S03, drying the washed catalyst;
[0070] S1, pulverizing the catalyst and adding concentrated sulfuric acid for acidolysis, adding water after acidolysis to obtain a titanyl sulfate solution, which specifically includes the following steps:
[0071] S11, crushing the catalyst into 180-200 mesh catalyst powder;
[0072] S12, put the catalyst powder into a lead-made acidolysis tank, add 85% to 88% concentrated sulfuric acid according to the weight ratio ...
Embodiment 3
[0084] Embodiment 3: a kind of method that reclaims Ti and W from waste flue gas denitrification catalyst, such as figure 1 shown, including the following steps:
[0085] S01, blow the waste flue gas denitrification catalyst with compressed air for 23 to 30 minutes for each module to remove the dust in the tunnel;
[0086] S02, use a high-pressure water gun to flush the catalyst after dust removal. The flushing time of each module is 25-30min, and the pressure is 7-10Mpa to further remove the dust in the channel;
[0087] S03, drying the washed catalyst;
[0088] S1, pulverizing the catalyst and adding concentrated sulfuric acid for acidolysis, adding water after acidolysis to obtain a titanyl sulfate solution, which specifically includes the following steps:
[0089] S11, pulverizing the catalyst into 190 mesh catalyst powder;
[0090] S12, put the catalyst powder into a lead-made acidolysis tank, add 90% to 92% concentrated sulfuric acid according to the weight ratio of c...
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