Japan’s latest research and development of dust bags, the use of 700nm diameter nanofibers, developed by the filter design technology. Conventional dust collection bags on the market are all made of glass fiber coating technology. One of the fatal weaknesses of the technology is the lamination of non-woven fabrics or woven cloths to achieve a more refined filtration effect, but the technology will have a serious impact. The filter efficiency and service life of the dust bag.
At the same time, due to long-term use of dust bags, it is very easy to cause blind pores in non-woven fabrics, reduce the dust removal efficiency and increase the exhaust air pressure, resulting in a certain decline in production capacity and increase in energy consumption. In response to these problems, the company provides high-performance nanofiber dust removal. The bag adopts Japan’s advanced nano-laminating technology to implant a layer of nano-fiber material on the surface of a non-woven dust bag. The nano-fiber dust bag has high permeability, small filter pore diameter, longer service life, and easy cleaning characteristics. The launch has been favored by many manufacturers.
use:
The use of Japan’s high-performance filter bags has a wide range of uses.
● Air pollution countermeasures:
Effectively captures fine dust emitted from factories and projects. Cement, etc.
● Powder recovery and reuse
It can efficiently collect fine powder that can be recycled and reused. Such as: cement, lime, chemicals, milling, seasoning, etc. have many uses…
● Filter dust
It can effectively collect the fine dust discharged from the factory and contribute to the improvement of the environment.
Energy saving and service life:
Ordinary filter bag filter cloth filter features:
Powder and dust will invade the interior of the filter cloth.
Nano high trapping performance filter cloth features:
The powder and dust will be resisted on the surface, so the back blow is completely cleaned, and this structure is not easy to cause internal blockage.
Nanomaterials are ideal powder filter materials due to their high specific surface area and high surface energy:
1. The random stacking structure of fibers with a diameter of several hundred nanometers is loaded on a conventional filter bag, and an effective interception of dust particles passing through the filter bag can be achieved.
2. The load of the mesh structure blocks the particles on the surface of the filter bag, which can reduce the impact of the dust particles on the filter bag and make the back blowing easier, and prolong the service life of the filter bag.
3. After the nanofibers form a network structure, the thickness and the linear density of the support filter bag can be reduced, so that the pressure loss can be reduced and the production efficiency can be improved.