Sewage treatment method in paper friction material production
A technology of paper-based friction material and sewage treatment method, which is applied in the fields of water/sewage multi-stage treatment, water/sludge/sewage treatment, processing wastewater treatment, etc. problem, to achieve the effect of omitting the pH value callback step, easy to obtain, and realizing the effect of recycling
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Embodiment 1
[0015] 1. Pulverize the scraps from the production process of paper-based friction materials in a high-speed pulverizer, pass through an 80-mesh sieve after pulverization, and save the main fiber pulverization.
[0016] 2. The main fiber pulverized matter and the added inorganic SiO 2 Small particles (with a diameter between 425 and 850 μm) are made into a composite filler layer at a volume ratio of 12:1.
[0017] 3. The filling sequence of each filter layer in the device is 80 mesh nylon screen from bottom to top, 5cm fine sand layer (particle size is 425μm to 850μm), 80 mesh nylon screen, 30cm composite packing layer, iron screen (screen Eye diameter greater than 850μm), 15cm large particle SiO 2 filler layer.
[0018] 4. Pass the sewage to be treated through each filter layer in turn from top to bottom. After filtering, the treated water can flow back to the slicing machine through the pipeline to realize the recycling of sewage.
Embodiment 2
[0020] 1. Pulverize the scraps from the production process of paper-based friction materials in a high-speed pulverizer, pass through a 60-mesh sieve after pulverization, and save the main fiber pulverization.
[0021] 2. The composite filler layer is made of the main fiber pulverized matter after the paper-based friction material scraps are crushed and the added inorganic SiO2 small particles according to the ratio of volume fraction of 10:1.
[0022] 3. The filling order of each filter layer in the device is from bottom to top: 60-mesh nylon screen, 3cm fine sand layer (particle size is 425μm to 850μm), 60-mesh nylon screen, 24cm composite packing layer, iron screen (screen Eye diameter greater than 850μm), 12cm large particle filler layer.
[0023] 4. Pass the sewage to be treated through each filter layer in turn from top to bottom. After filtering, the treated water can flow back to the slicing machine through the pipeline to realize the recycling of sewage.
Embodiment 3
[0025] 1. Pulverize the scraps from the production process of the paper-based friction material in the high-speed state of the pulverizer, pass through a 40-mesh sieve after pulverization, and save the main fiber pulverization.
[0026] 2. The main fiber pulverized matter and the added inorganic CaCO 3 Small particles (with a diameter between 425 and 850 μm) are made into a composite filler layer at a volume fraction ratio of 6:1.
[0027] 3. The filling sequence of each filter layer in the device is 40 mesh nylon screen from bottom to top, 2cm fine sand layer (particle size is 425 μm to 850 μm), 60 mesh nylon screen, 15cm composite packing layer, iron screen (sieve Eye diameter greater than 850μm), 8cm large particle filler layer (CaCO 3 Particles, particle diameter greater than 850 μm).
[0028] 4. Pass the sewage to be treated through each filter layer in turn from top to bottom. After filtering, the treated water can flow back to the slicing machine through the pipeline...
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