Method for preparing light-weight protection wall by utilizing flying ash generated after garbage power
A waste-to-energy, lightweight technology, applied in sustainable waste treatment, solid waste management, climate sustainability, etc., can solve the problems of secondary pollution of the environment, easy breakage of anti-seepage membranes, etc., achieve high decomposition rate, avoid secondary pollution, etc. The effect of secondary pollution and avoiding secondary pollution of heavy metals in the environment
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Embodiment 1
[0043]Extract 40%~45% of the waste gas from the sintering head dust collector to be recycled as sintering combustion air. Part of the dioxin and carbon monoxide in the sintering cycle flue gas decomposes nitrogen oxides, and at the same time reduces the consumption of solid fuel; after the dust collector Catalytic reaction device is set, and in catalytic reaction device, catalyzer is irradiated with ultraviolet lamp; Get 2.5 kilograms of sodium sulfide, 3 kilograms of polypropylene fibers, 15 kilograms of water, 6 kilograms of cement, 5 kilograms of lightweight ceramsite, 6 kilograms of diatomaceous earth, 6 kg of expanded perlite and 30 kg of waste incineration fly ash were mixed and stirred evenly, injected into the plate forming mold, kept at 90°C for 12 hours, demoulded after composite molding, and then watered and cured for 72 hours to obtain a lightweight plate.
Embodiment 2
[0045] Extract 40%~45% of the waste gas from the sintering head dust collector to be recycled as sintering combustion air. Part of the dioxin and carbon monoxide in the sintering cycle flue gas decomposes nitrogen oxides, and at the same time reduces the consumption of solid fuel; after the dust collector Catalytic reaction device is set, and in described catalytic reaction device, catalyzer is irradiated with ultraviolet lamp; Get 5 kilograms of sodium thiosulfate, 8 kilograms of carbon fibers, 30 kilograms of water, 6 kilograms of cement, 5 kilograms of lightweight ceramsite, 6 kilograms of diatomaceous earth kg, 6 kg of expanded perlite, and 50 kg of waste incineration fly ash were mixed and stirred evenly, poured into the plate forming mold, kept at 80°C for 24 hours, demolded after composite molding, and then watered and cured for 48 hours to obtain lightweight sheet.
Embodiment 3
[0047] Extract 40%~45% of the waste gas from the sintering head dust collector to be recycled as sintering combustion air. Part of the dioxin and carbon monoxide in the sintering cycle flue gas decomposes nitrogen oxides, and at the same time reduces the consumption of solid fuel; after the dust collector Catalytic reaction device is set, and in described catalytic reaction device, catalyzer is irradiated with ultraviolet lamp; Get 5 kilograms of thiourea, 8 kilograms of wood fiber, 30 kilograms of water, 9 kilograms of cement, 8 kilograms of lightweight ceramsite, 9 kilograms of diatomaceous earth , 9 kg of expanded perlite, and 50 kg of waste incineration fly ash were mixed and stirred evenly, injected into the plate forming mold, kept at 60°C for 48 hours, demoulded after composite molding, and then watered and cured for 24 hours to obtain a lightweight plate .
[0048] The present invention utilizes the fly ash after garbage power generation to prepare light-weight retaini...
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