Ultraviolet radiation enhancement based method and device for simultaneous desulfurization, denitrification and particulate removal of pypocholoride
A technology for hypochlorite, desulfurization and denitrification, applied in chemical instruments and methods, combined devices, separation devices, etc., can solve the problems of high plasma energy consumption, increased device power consumption, and increased difficulty in operation and management.
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Embodiment 1
[0067] A method for simultaneously desulfurizing, denitrifying, and departiculate matter based on hypochlorite enhanced by ultraviolet radiation has the following steps:
[0068] S1, the hypochlorite aqueous solution forms an atomized aerosol;
[0069] The atomized aerosol obtained in S2 and S1 is irradiated with ultraviolet light, and the hypochlorite in the atomized aerosol undergoes a photodecomposition reaction to generate strong oxidizing ROS free radicals;
[0070] The atomized aerosol obtained in S3 and S2 is fully mixed with the flue gas, and the low-valence harmful gas in the flue gas is oxidized into a high-valence gaseous product or the corresponding oxysalt, and the fine particles in the flue gas are absorbed by S2 The atomized aerosol adsorption that obtains in;
[0071] S4. The flue gas treated by S3 and the atomized aerosol after the reaction of S3 are wet-washed to absorb the atomized aerosol and the high-valence gaseous products oxidized from low-valence harm...
Embodiment 2
[0081] The difference between this embodiment and the simultaneous desulfurization, denitrification and particle removal method of hypochlorite based on ultraviolet radiation enhancement disclosed in Example 1 is that the solute of the hypochlorite aqueous solution is Ca(ClO) 2 , the solute mass fraction of the hypochlorite aqueous solution is 0.5%, the colloidal particle size of the atomized aerosol is 55 μm, and the ultraviolet light irradiation time in the step S2 is 2.5 s.
Embodiment 3
[0083] The difference between this embodiment and the simultaneous desulfurization, denitrification and particulate matter removal method of hypochlorite based on ultraviolet radiation strengthening disclosed in Example 1 is that the solute of the hypochlorite aqueous solution is NaClO, Ca(ClO) 2 Mixing with KClO, among them, NaClO, Ca(ClO) 2 The mass ratio with KClO is 1:1:1, the solute mass fraction of the hypochlorite aqueous solution is 1%, the colloidal particle diameter of the atomized aerosol is 100 μm, and the ultraviolet light irradiation described in the step S2 The time is 5s.
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