An environmentally friendly process for treating xanthan gum fermentation wastewater
A technology for fermenting wastewater and xanthan gum, which is applied in filtration treatment, precipitation treatment, special treatment targets, etc., can solve the problems of difficult cultivation operation process, inability to completely degrade ammonia nitrogen, and inability to reuse it, and achieve good dispersion performance and reduce treatment. Device volume, the effect of avoiding excessive proliferation
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Embodiment 1
[0032] A biological agent for treating waste water from a xanthan gum fermentation process, which is prepared according to the following process:
[0033] Mix kaolin and bentonite according to the mass ratio of 2:1, and then add them to a ball mill equipped with ball milling media (5mm silicon carbide balls, mass ratio of material balls: 1:5) for ball milling for 30min, dry at 80°C for 15min, and then pass 100 Mesh sieve to collect undersize;
[0034] Mix polyvinyl alcohol, attapulgite, urea, water, and undersieve according to the mass ratio of 3:5:7:70:100, and then put them into a granulator for granulation to obtain wet granules with a diameter of 1mm , then placed in 80 ℃ drying for 30 minutes, then placed in a resistance furnace for calcination at 1000 ℃ for 30 minutes, after natural cooling, ceramsite was obtained;
[0035] Mix bacterial agent A and ceramsite according to the ratio of 1L:2kg, and culture at 30°C for 6h.
[0036]Then add bacterial agent B, 40g / L sodium ...
Embodiment 2
[0041] A biological agent for treating waste water from a xanthan gum fermentation process, which is prepared according to the following process:
[0042] Mix kaolin and bentonite according to the mass ratio of 2:1, and then add them to a ball mill equipped with ball milling media (5mm silicon carbide balls, mass ratio of material balls: 1:5) for ball milling for 30min, dry at 80°C for 15min, and then pass 100 Mesh sieve to collect undersize;
[0043] Mix polyvinyl alcohol, attapulgite, urea, water, and undersize according to the mass ratio of 3:5:7:70:100, and then put them into a granulator for granulation to obtain wet granules with a diameter of 2mm , then placed in 80 ℃ drying for 30 minutes, then placed in a resistance furnace for calcination at 1000 ℃ for 40 minutes, after natural cooling, ceramsite was obtained;
[0044] Mix bacterial agent A and ceramsite according to the ratio of 1L:2kg, and culture at 30°C for 6h.
Embodiment 3
[0051] Index detection of ceramsite in the present invention.
[0052] Porosity: use the boiling method of GB / T1966-1996 to measure the porosity of the sample;
[0053] Mechanical strength: measured by GBT1965 / 1996 test method for bending strength of porous ceramics.
[0054] The specific indicators are shown in Table 1:
[0055] Table 1
[0056] group Porosity% Mechanical Strength Mpa Density g / ml Example 1 72.8 14.6 1.04 Example 2 70.6 15.3 1.08
[0057] It can be seen that the porosity of the ceramsite carrier of the present invention reaches more than 70%, the pore diameter is between 0.1-10 microns, it is easy to process, the strength is high, the porosity is high, the density is close to water, it is in a suspended state, and the dispersion in waste water is good , which is conducive to the rapid adsorption and treatment of pollutants.
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