Enzymic Microbial Inhibition Filter Series Medium / High Efficiency Filter

  • PACMAN

  • Features

  • ・Quick and effective
    ・Functions at room temperature: No electricity or heating required
    ・Enzymes molecularly bonded to glass fiber media: No enzymes                released by physical impact
    ・Natural enzymes: Safe for the environment and human beings

  • Enzymic Sterilization Mechanism

  • Enzymic Filters employ modified lysozymes with an extensive sterilization spectrum, thus providing sterilization
    reliability over a wide range of bacteria.
    In the Enzymic Filter’s sterilization process, enzymes fixed on media fibers hydrolyze and break the molecular bonds
    of bacterial cell walls (glycoside, amido, or peptide). Cell membranes are then ruptured by inner osmotic pressure
    and the bacteria are destroyed

HEPA Filters
High Temperature HEPA filters for Tunnel
Enzymic Series Filters
GIGA Series- Semiconductors

Secondary Contamination Prevention

  • Particles collected on the exposed upstream surface of the filter may
    accumulate to a thickness of 1/3 of one layer of filter media.

  • Analysis of a conventional HEPA filter used for one year by a food manufacturer showed particle accumulation of 0.1 mm thickness on a cross-section of upstream filter media (thickness: 0.33 mm) and further

    • detected Gram-Positive, and other bacteria proliferation within the particles. Also, secondary scattered Gram-positive and other bacteria were
      detected on sections of the filter thatappeared to be clean: within 0.1 mm of the downstreamface where there was no particle adhesion.
      Thisindicates the existence of bacteria proliferation and scattering throughout the filter  This type of secondary contamination can beprevented
      through the use of Cambridge Enzymic Filters. The Enzymic Filter collects and neutralizes bacteria as they move through the filter towards the
      downstream face. Lytic enzymes are evenly deposited throughout the filtration media by molecular bonds,thus providing efficient microorganism
      sterilization and reliably preventing secondary contamination.

MRSA

  • Methicillin Resistant Staphylococcus Aureus can cause skin infections, pneumonia and food poisoning. MRSA is a known cause of staph infections which can occur in medical facilities.

Fungus Inhibition

  • It is known that fungus contamination which may occur during food product, pharmaceutical and cosmetic manufacturing processes, can cause infections and lead to the development of skin lesions. In addition, contamination can lead to allergic diseases, such as asthma, allergic rhinitis and atopic dermatitis caused by fungus and fungivorous parasites.

  • If oxygen and nutrition sources, temperature, humidity, and time permit, fungi can produce hyphae, then implant a large number of spores on media causing secondary contamination.

A conventional HEPA filter used for one year by a leading foodnmanufacturer was removed and the filter media near the outlet was sampled.
The media cross sections wereanalyzed by electron microscope. The above photograph shows the crucial moment when green mold sporesgrew
hyphae, and implanted a large number of new spores onto the filter media. The Cambridge Enzymic Filter inhibits the growth of hyphae through
bacteriostasis, and thus substantially prevents the growth of fungus on filter media.