Skip to product information
1 of 1

Durand Stoneware

PF-4 Fluoride Reduction Elements (For Use With Doulton Ceramic Filters )

PF-4 Fluoride Reduction Elements (For Use With Doulton Ceramic Filters )

Regular price $120.00
Regular price Sale price $120.00
Sale Sold out
Shipping calculated at checkout.


PF-4™ reduction elements, are designed for use with Doulton ceramic filtration elements to adsorb the following four unwanted elements most commonly found in drinking water.

Please note: These filter elements have a specific threading size that will only fit to ceramic Doulton™ and Berkefeld™ Filters. If you are unsure which system these are designed for use please contact us on (07) 55 333 611

MTBE (Methyl-tertiary-butyl-ether)

PF-4™ filters are also designed to adsorb:

DBCP (Dibromo-chloro-propane)
THMs (trihalomethanes)
Herbicides & Pesticides
Heavy Metal ions

Fluoride: Testing for fluoride was based on 20-30ppm of the ion in the influent aqueous solution at a flow rate of no more than 3 gpm (11 lpm) per cubic foot of media. Results of 95% reduction). Under optimum conditions, effluent concentrations of less than 50 ppb were readily achieved (>99.75% reduction).

Please note that the average level of fluoride in Australian town water supplies is 1ppm. These filters are what we believe to be most effective as they are tested at a much higher level and are guaranteed for the capacity of the filter. When using these elements in a gravity system, such as our stainless steel or ceramic systems, these filters have longer contact with the media and are therefore more effective than when tested under a higher flow rate. 

Arsenic: This product uniquely targets the entire family of arsenic oxide anions as well as the arsenic cations.

Lead: Tests have shown that when 7,500 litres of influent water at a concentration of lead of 150-200 ppb pass through 200 grams of media at a flow rate of 1gp , the lead level was reduced to less than 1ppb (99% reduction).

The fuel additive MTBE (Methyl-terteiary-butyl-ether): Berkey PF-4™ elements are manufactured to exceed ANSI/NSF standard 53 which requires that MTBE be reduced by at least two thirds from an influent rate (water going out) of less than 5ppb (>95% reduction*) *Actual capacity is dependent on the presence of other competing contaminants in the source water. High levels of total organic carbons and volatile organic compounds may reduce the capacity and efficiency of the elements.

For use with Durand Fluoride Reduction Systems or British Berkefeld Stainless Steel Systems.  To be used in conjunction with a Doulton Super Sterasyl Ceramic Filter.

Note: Durand Original Systems do not have enough clearance in the storage chamber to accommodate the PF-4™ element.


Under normal conditions it is recommended that each PF-4™ element be replaced after 1,000 litres (or 2,000 ltrs if you are using two elements in your system). If you consume about 5 litres a day of filtered water you would need replacement every 6 months in a system using 1 filter and 1 element at a time. Every 12 months if using a system which uses 2 filters and 2 elements. Actual capacity is dependent on the presence of other competing contaminants in the source water. High levels of fluoride, arsenic and heavy metals may reduce the capacity and efficiency of the elements.


PF-4™ elements must be washed and primed before USE.


Please note: This video demonstrates the below procedure with a PF-2 element (For Black Berkey elements). The procedure is the same for PF-4 and PF-2 elements.


The media in your PF-4™ contains micro fine process dust that can cause the filtered water to have a bitter taste. To dislodge the process dust from your element, it is necessary to prime each element. To prime your element use the following procedure:

  1. With blue caps in place wash the exterior of each element with mild dish soap.
  2. With clean hands, remove both blue caps from the end of each element.
  3. Place the rubber washer (priming button) onto one of the elements and align the hole in the button with the hole in the element. Hold on to your priming button for further priming.
  4. Press the priming button up against a sink faucet so that the priming button creates a seal between the faucet and the PF-4™ element.
  5. While holding priming button against faucet (place thumb on top of faucet to apply pressure and create a better seal) Turn on the cold water gently, allowing water to fill the cavity of the PF-4™ element and discharge for at least 20 seconds or until water runs clear whichever is longer.
  6. Turn the PF-4™ element the other direction and prime the other end repeating steps 3-5. The element has now been primed.
  7. Repeat the above steps with the second PF-4™ element. 


  1. Assemble the water filter as per system assembly instruction.
  2. On the underside of the upper chamber (holding the ceramic filter/ filters), locate the stem of each ceramic filter, making sure the wing nut of the filter is in place and hand tightened.
  3. With clean hands take a primed (caution read directions above "priming procedure", before installing) PF-4™ element , with the water flow arrow pointing away from the upper chamber. Screw the PF-4™ on the protruding thread of the ceramic filter 3-5 revolutions.
  5. When complete, seat the upper chamber on top of the lower chamber. Fill upper reservoir or container.
  6. When the lower reservoir is full, discard the first batch of water, which may contain some process dust.
  7. When upper chamber is full of water the PF-4 will be immersed in the stored water area.
View full details