Which is more suitable for new home use, fruit shell activated carbon or ceramic particles? Nowadays, people are paying more and more attention to the quality of life and health, rather than just focusing on the issue of food and clothing. There are many now80Young people in the future are very concerned about the harm of formaldehyde and benzene to the human body after new house decoration. If they want to safely and thoroughly remove the harmful gases left after decoration, the main products sold on the market for this problem are bio ceramic particles and activated carbon series. Which one is better? Don't worry, the personnel responsible for the research and development of fruit shell activated carbon technology in the company will explain to everyone.

According to many studies, bio ceramic particles are500Under the nanometer scale, clear pore sizes can be seen. And the fruit shell water purification activated carbon is20000The pore size can only be seen at the nanoscale, and the use of activated carbon for the removal of harmful gases through physical methods relies on the pore structure to adsorb harmful gases. Therefore, only bioceramics and coconut shell activated carbon have adsorption function.

The size of organic molecules such as formaldehyde and benzene is approximately1nanometer. The pore size of fruit shell activated carbon is20Micron, bioceramic pore size500nanometer. By comparing this, it can be concluded that the pore size of fruit shell activated carbon is formaldehyde20000Bei, biological pottery is500Twice. According to adsorption theory, the adsorption effect is determined by the ratio between the pore size and the size of the molecules to be adsorbed.

So even from the perspective of pure physical adsorption, molecules such as formaldehyde and benzene adsorbed by fruit shell activated carbon are easily desorbed, that is, they are easily released back into the air, causing secondary pollution. Compared to fruit shell activated carbon, the pore size is smaller40The probability of adsorbed molecules desorbing is much smaller in biological ceramics, and adsorbed molecules are prone to capillary condensation in the pores, resulting in a larger adsorption capacity.

Fruit shell activated carbon mainly relies on surface adsorption, while bioceramics combines interlayer adsorption and surface adsorption. Surface adsorbed materials are prone to being covered by dust and water films, rendering them ineffective, whereas interlayer adsorption does not have this issue. That is to say, fruit shell activated carbon is not moisture-proof and afraid of moisture, while bio ceramic particles do not have this problem.

Whether using fruit shell activated carbon or ceramic particles, they are all carriers for air treatment. In addition to this method, newly renovated houses should have more windows for ventilation to promote air circulation, and indoor plants with air purification effects can also be grown. Combining these multiple methods is the fundamental way to quickly and safely remove harmful gases.