This micro-filter provides reliable precision-filtering of microorganisms and fine particles to a degree that can serve a wide variety of industriessuch as the foodstuffs, precision machinery, and electronics industries.
What is a micro filter?
Microfiltration is a type of filtration process in which membrane filter, with pore sizes that vary from 0.1μm to 10μm, is used to trap fine particles or microorganisms.
Fujifilm and "filtration technology" may sound somewhat unrelated, but Fujifilm’s research into filtration technology can be traced back to nearly half a century ago. Based on the technology of photographic films, Fujifilm came up with the idea of making microscopic holes in film to optimize the film material. Completed in this way, through trial and error, was "AstroPore", a micro filter having numerous micro pores. With improvements from time to time since its launch in 1969, AstroPore has been in production for more than 40 years. Its superior quality has received high recognition from many customers, firmly supporting Fujifilm’s growth until today.
Now, let's see the features of micro filters. Generally, micro filters can be classified into two types depending on their trapping mechanism and structure.
1. Nominal (filtration) type
2. Absolute (filtration) type
The "nominal type" has a structure in which fibers are randomly tangled with each other. On the other hand, the "absolute type" typically has numerous micro-sized pores inside a synthetic resin film or membrane, which enables particles larger than a defined size to be trapped.
Today, our micro filters are used at manufacturing sites of a wide variety of industries. Listed below are just few examples of how they are used…
- Removing yeast and bacteria from brewery processes (beer, wine and Japanese sake)
- Removing any harmful organisms in bottled water
- Removing contaminants from cleaning liquids used in washing processes for liquid crystal panels and semiconductors
Original Asymmetric Structure
Our membrane filter has a unique characteristic where the structure is asymmetric. The pore diameter in the film is rather large on the inlet side but gradually becomes smaller towards the outlet side (see "PSE membrane structure" on the right). Coarse particles are first trapped near the inlet side, while finer particles are trapped by finer pores that are situated further, towards the outlet side of the membrane. The pictures on the right show the cross section of the membrane. Filtered material flows from the top (inlet side) to bottom (outlet side). As you can see, the pore size gradually becomes smaller towards the outlet side.
Asymmetric structure of Fujifilm AstroPore micro filter
(2)Low Initial Pressure Loss With High Flow Rate
Imagine an hourglass with the bottom glass bulb being cut in the middle. The larger pores on the inlet side ensure a low initial pressure loss. The pore size gradually decreases, however, becomes larger again on the outlet side. Also, the dense layer where pressure loss occurs usually is thin compared to other membranes. These two features provide low initial pressure loss and high flow rate.
(3)Reliable Trapping Performance
The pore diameter can be as small as 0.03 μm, depending on the product grade. Sharp pore size distribution curves (see charts below) assure reliable removal of fine particles and microorganisms.