Molecular sieve manufacturer: Molecular sieve adsorbent changes under the influence of temperature

The commonly used production process of molecular sieve is to stir and mix aluminum hydroxide, pseudo-boehmite and zeolite powder in a certain proportion, fully react to form balls at a certain temperature, and after 8-12 hours of activation treatment, they will be released to the surface. The upper colloid is a molecular sieve product. The production method has the characteristics of high production efficiency, low investment cost, simple process, convenient operation, large output and the like.

The performance advantages of molecular sieve: strong adsorption capacity, good water treatment effect, long service life, not easy to be broken and pulverized, in terms of water purification, compared with activated alumina ball desiccant, it can save 10-20% of the cost. Wide range of applications, widely used in domestic drinking water, industrial water, industrial equipment drying, domestic water, domestic sewage and industrial sewage treatment, can effectively remove impurities fluorine, arsenic, and aluminum ions in water sources. So, do you know that molecular sieve adsorbents are affected by temperature? molecular sieve manufacturer will answer for you!

The water purification function of high-efficiency molecular sieve will be affected by temperature, which is less affected under high temperature and high turbidity conditions, and will be more affected under low temperature and low turbidity conditions. When the temperature reaches - when the temperature is 10 ℃, it will affect the adsorption effect. From the analysis of the internal structure, the molecular structure of the high-efficiency molecular sieve is most stable when the temperature is 15-25 ℃. When the temperature drops below zero, the suspension of molecules begins to move, which will also affect the purification effect of molecular sieves. The direct performance is that the adsorption effect is not obvious, and it is difficult to form alum flowers, which further affects its deposition. In winter, when the temperature is very low and below zero, it is difficult for high-efficiency molecular sieves to function.