Super Sterasyl™ Element Specifications

The Super Sterasyl™ Ceramic Shell The Super Sterasyl™ grade ceramic is designed to remove suspended solids and pathogenic bacteria (>99.99%).  The filter elements are produced using the latest ceramic techniques to provide a hollow porous ceramic, which is fired at a temperature in excess of 1,000º C.  They are designed to operate with water flow going from […]

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Berkey Shower Filter™ Specifications

TECHNICAL INFORMATION In the shower environment, chlorine can either be in liquid or gas state. At higher water temperatures in the enclosed shower stall, free-chlorine moves from the liquid to the gas state, where it vaporizes and subsequently is inhaled. The United States regulates all showerhead flow at 2.5 gallons per minute. Thus, the science […]

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Sport Berkey® Specifications

The  Sport Berkey®  Portable Water Filter is the ideal personal protection traveling companion- featuring the IONIC ADSORPTION MICRO FILTRATION SYSTEM. The theory behind this innovation is simple. The bottle’s filter is designed to remove and/or dramatically reduce a vast array of health-threatening contaminants from questionable sources of water, including remote lakes and streams, stagnant ponds and […]

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What is the Micron rating of the Black Berkey® Purification Elements

With respect to the micron rating, NMCL does not use or publish a micron rating for the Black Berkey® elements for the following reasons: There is much confusion with respect to nominal and absolute micron ratings. An absolute micron rating is one that states the maximum pore size expected within an element. The nominal micron rating […]

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Black Berkey® Purification Element Specifications

BLACK BERKEY®PURIFICATION ELEMENTS FILTRATION SPECIFICATIONS Black Berkey® Purification Elements are more powerful than any other gravity filter element currently available.  The Elements have a unique purification capability that is due to their unique structure. The micro- pores within the Black Berkey® Elements are so small that viruses and pathogenic bacteria are simply not able to pass […]

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