Membrane distillation method, as a heat-driven membrane separation technology using microporous hydrophobic membrane as the separation medium, can effectively realize the treatment of high-concentration brine systems. It has the characteristics of high efficiency, low consumption, and environmental friendliness. This is mainly due to the low ptfe Filter material.
The purification effect of particulate pollutants smaller than PM2.5, such as PM1.0 and PM0.5, has always been unsatisfactory. The reason is that: for ultrafine particles PM0.5 smaller than 0.5μm, almost all filtration methods rely on blocking methods. Materials have no good effect, because extremely small particles can get through, just like mosquitoes can get through protective railings.
The mass proportion of PM0.5 in PM2.5 is not high, but the quantity concentration ratio is close to 90%, and it has the most significant relationship with the health hazards of residents (the smaller the particle size, the greater the health hazards.
PTFE low-resistance filter membrane has very high heat resistance and low temperature resistance.
The heat resistance of polytetrafluoroethylene is very high among existing engineering plastics.
Although trace amounts of decomposition products begin to appear at 200°C, its decomposition rate is still very slow from 200°C to temperatures above the melting point of 327°C, which is almost negligible; only at 400°C does significant decomposition occur , the weight loss per hour is approximately 0.01%.
It is a fluorine material film manufacturer integrating production, sales and customization.
The company has advanced ptfe low-resistance filter membrane production lines and composite production lines.
The company’s products are widely used in various fields. With strong technical force and strict management system, the company ensures that everything focuses on the interests of users and provides users with high-tech, high-quality, high-performance, and high-level products.
Interested parties can enter the store for consultation.
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