Performance you can trust.
Our commitment to quality is backed by internationally recognised standards, giving you complete confidence in your drinking water, every day. British Berkefeld ceramic water filters undergo continuous, rigorous testing via external certification bodies such as NSF and WRAS. Our in-house team of experts also perform continuous testing and product development. This guarantees exceptional performance and reliability in every single British Berkefeld product.
Below you will find some details about our testing data.
Technical Specification |
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|---|---|---|
Sterasyl® microfilter plus granular activated carbon and lead removal media |
Sterasyl® microfilter plus Fluoride and lead removal media with activated carbon |
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FiltrationRating |
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0.9 micron |
0.9 micron |
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0.5 to 0.8 micron |
0.5 to 0.8 micron |
Microplastics to NSF/ANSI Std 401 |
>99.9% |
>99.9% |
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>99% |
>99% |
Working Parameters |
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5 – 30 (°C) |
5 – 30 (°C) |
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5.5 – 9.5 |
5.5 – 9.5 |
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Yes |
Yes |
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6 months |
6 months |
Flow Rate & Capacity |
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|---|---|---|
Ultra Sterasyl |
Ultra Fluoride |
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Flow Rate Typical Flow Rate per filter× |
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|
1 |
1 |
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0.26 |
0.26 |
× This may vary dependent upon the size of the housing & number of filter elements |
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Capacity |
After 6 months |
After 6 months |
Quality & Pathogenic Performance |
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|---|---|---|
Ultra Sterasyl |
Ultra Fluoride |
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Quality Approval |
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|
Yes |
Yes |
|
Yes |
Pending |
Pathogenic Organisms Bacteria Removal* |
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|
>99.99% |
>99.99% |
% Cyst Removal |
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|
>99.99% |
>99.99% |
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>99.99% |
>99.99% |
Chemical Removal Performance |
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|---|---|---|
Ultra Sterasyl |
Ultra Fluoride |
|
Organics Removal |
||
Range of Pesticides, Herbicides, Fungicides & Pharmaceuticals |
>90% |
Pending |
PFAS |
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|
95% |
Pending |
Inorganics Removal |
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|
>99% |
Ave. 97.2% |
Fluoride
|
Not Applicable |
Up to 98.9% |
Heavy Metals Removal |
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|
up to 95% |
up to 95% |
|
Pending |
Ave 86.4% |
|
Pending |
Ave 97.4% |
|
Pending |
Ave 99.4% |
|
Pending |
Ave 93.7% |
Please note:
- This product is classed as a pesticidal device due to its filtration claims, individual state legislation may limit the availability of certain products, please check state law.
- Where test data shows as pending, our carbon supplier for the filter element has confirmed that the carbon will reduce the contaminant, but it has not yet been tested to the current NSF protocol, so they cannot predict the reduction capacity at this time. Therefore, the filter will aid in the removal of contaminant, but we cannot state the performance yet.
*Ceramics tested in HIS filter housings with a minimum 5 log/100mls influent challenge
Certifications & Accreditations
Proudly NSF Tested and Certified
Our NSF credentials reflect our dedication to quality, safety, and continuous improvement, ensuring you receive the best possible service and products.
WRAS Approved Product
Our WRAS data proudly showcases our commitment to excellence and adherence to the highest industry standards.
Test Data Explained
Filtration
The act of filtration is best described as a method of separating or removing solid particles using a filter. The filter could be a simple sieve used to remove lumps from flour. Filtration methods work on the same basic principle – the material is passed though one or more apertures (holes) of a certain size to remove all particles greater than that aperture size.
Filtration Rating
When considering a water filter, you’ll probably note that each water filter supplier generally advises a micron rating. The rating advises the minimum particle size that the filter will remove from the water and is usually quoted in micrometer/micron or by its abbreviation μm.
To give you some perspective on this, a micron is a unit of length that is one millionth of a meter or 10-6 m or 1/25,400 of a inch and particles of 1 micron in size need to be magnified to be seen by the human eye for example with a microscope.
With most filters the filtration rating purely relies upon size of the pores/apertures in the filter retaining particles larger than the pore/aperture size. This is known as surface filtration and if the aperture size is sub-micron the flow through the filter may be slower for a given surface area.
Size Guide Microns*
0.02 – 0.5 Viruses which can cause disease in humans
0.2 -1 0 Bacteria (range 0.2-1 micron width and 1-10 micron length
2 – 50 Protozoan Cysts – protective capsules formed by protozoa in preparation for a resting or reproductive phase
*as referenced by WQA Technical Guidance
How Important is Ceramic Depth Filtration?
Doulton & British Berkefeld ceramic filters not only use the carefully controlled pore size of their ceramic to remove particles from water, but also the wall thickness, this is known as depth filtration. Ceramic depth filtration of a specific pore size will filter out considerably smaller particles than an equivalent pore size surface filter for the following reasons: –
1. A surface filter acts as a single barrier to the passage of water.
2. The water passing through a ceramic filter has to travel much further than the distance of the ceramic wall thickness, because it has to follow the path of pores in the ceramic. The path through the filter twists and turns through sharp angles due to the complicated ceramic structure, so particles that may have penetrated the surface of the ceramic become trapped within the structure.
3. The build up of particles trapped by the ceramic cause a pre-coat on the ceramic resulting in increased filtration efficiency of the ceramic.
4. Weak Van der Waals forces attract the small particles to the ceramic, causing them to be adsorbed onto the wall of the ceramic.
To appreciate the distance and how difficult a path the water has to follow, consider that the wall thickness of the ceramic is 1000 – 2000 times greater than the pore size of the ceramic filter. Also, the pores are sharp and jagged which increases the capability of the ceramic filter to trap particles.
What Else is Important to Know About Doulton & British Berkefeld Ceramic Depth Filtration?
Unlike many filters when the Doulton & British Berkefeld ceramic filters see a reduction in flow when filtering water with high levels of sediment and turbidity, they can be removed and the surface gently cleaned to restore the flow rate.
What are Absolute and Nominal Micron Ratings?
Absolute Micron Rating:
What is meant by an absolute rating is the maximum size of particles that can pass through a filter. For instance, a 1-micron absolute filter is designed to block anything larger than 1 micron from passing through – it is usually expressed at a certain efficiency so for example:
1 Micron Absolute Filtration Defined as >99.99%
In contrast, a nominal filter provides a less precise assurance regarding the particle size that can be retained, quite often it is expressed as a size range. Again, this is usually expressed at a certain efficiency so for example
0.5-0.8 Micron Nominal Filtration Defined as 99.9%
Compatible Water Systems
Our Ultra Sterasyl and Ultra Fluoride water filter cartridges will also fit most stainless-steel gravity water filter systems on the market. If you’re looking for an improved water experience, then a British Berkefeld ceramic candle will provide you with the ability to reduce up to 99% of chlorine, significantly improving taste and odour. These filter elements also reduce common contaminants, including heavy metals and bacteria.
Compatible Water Systems |
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|---|---|
Competitor Systems |
Model |
Berkey® |
Travel Berkey® |
Newton |
6 Litre |
ProOne |
Big+ |
Phoenix Gravity |
6 Litre |
Purewell |
1.5 Gallons |
