A method for treating oil-in-water emulsion with a positively charged three-dimensional lipophilic and hydrophobic porous material
A lipophilic, hydrophobic, three-dimensional porous technology, applied in chemical instruments and methods, separation methods, liquid separation, etc., can solve the problems of limited contact probability, poor infiltration, etc., achieve enhanced oil-water separation effect, facilitate subsequent processing and Recycling, the effect of increasing the chance of effective contact
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Embodiment 1
[0050] see figure 1 - attached Figure 5 , a method for treating an oil-in-water emulsion with a positively charged lipophilic and hydrophobic three-dimensional porous material provided by the present invention and a comparison of the charging effect of the three-dimensional porous material: the volume is 1*1*3cm 3 , a melamine sponge (MS) with a pore size of 160 μm was soaked in an ethanol solution and ultrasonically cleaned for 20 minutes, washed with water, and dried in vacuum at 60° C. for 4 hours to a constant weight to obtain a pretreated melamine sponge; respectively weighed 0.4 g of dopamine (PDA), 0.5g polyethyleneimine (PEI) was dissolved in 200mL Tris-HCl buffer solution with pH 8.5, ultrasonically dispersed for 5min to make a mixed modification solution; the pretreated MS was added to the mixed modification solution, and mechanically stirred at 200rpm for 18h , washed with water, dried in vacuum at 60°C for 4h, until constant weight, to obtain a positively-strengt...
Embodiment 2
[0053] Adopt the MSA prepared by Example 1 and the non-emulsifier oil-in-water emulsion prepared by the MS treatment (a) method of surface modification treatment in the treatment method provided by the invention, and compare the COD value and oil concentration reduction of the filtrate Effect. The specific treatment method is as follows: Fill the MSA synthesized in Example 1 into the water filtration and oil pumping device, compress and reduce to 1 / 3 of the original volume before use. Prepare the oil-in-water emulsion prepared by the method (a), measure and record the COD value and oil concentration of the initial emulsion. Filter the emulsified hydraulic pressure through the material in a low negative pressure driving environment of 0kPa and a pressure of -1kPa, use a beaker or a plastic graduated tube to connect 10mL of the filtrate, and measure the COD value and oil concentration of the filtrate. Use 1*1*3cm 3 Melamine sponge (MS) replaced MSA, repeated the above operatio...
Embodiment 3
[0056] Prepare positively charged three-dimensional porous materials with different PEI application amounts of 0g to 0.7g, measure their surface chargeability, and use different PEI-modified porous materials to treat the emulsions stabilized by different chargeable emulsifiers prepared by the method (b), Compare its oil concentration reduction effect.
[0057] The specific operation method is as follows: The difference between the positively electrically strengthened three-dimensional porous material prepared in this example and the MSA prepared in Example 1 lies in the quality of the PEI added, which are 0g, 0.1g, 0.2g, 0.3g, 0.4 The gradients of g, 0.5g, 0.6g, and 0.7g prepared porous materials with different positive electric strengths, and characterized their chargeability. The results are as follows Figure 7 As shown, as the amount of PEI modification increases, the isoelectric point of the Zeta potential on the surface of the material moves positively; when the amount o...
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