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KDF-55

From EverybodyWiki Bios & Wiki


KDF is a water filtration media used in a number of water filtration applications.

Introduction[edit]

KDF media (or Kinetic Degradation Fluxion Media), is a chemical compound used in water filtration applications. KDF is often used along with activated carbon to maximise the filters efficiency. Generally KDF is used in a purification system as a pre-filter, before another, finer stage of filtration, for example, reverse osmosis, deionisation and ion exchange systems.

History[edit]

KDF is regarded[according to whom?] as being one of the newer developments in water treatment and filtration, since its development in 1984, it has grown to be widely regarded as one of the best filtration medias available.[1]

KDF was invented by Don Heskett in 1984.[citation needed] He initially discovered the potential[weasel words] of KDF media when he dipped one of his brass pen refills into a glass of chlorinated water containing chlorine reagent tablets (hence coloured pink), and observed the colour dissipate. It was at this moment that Don realised that the brass pen refill had some form of potential[weasel words] to absorb impurities from water, in this case, chlorine.[citation needed] Over the next 3 years Heskett developed and researched his discovery, slowly refining it until he came to the product now known as KDF media.

Structure[edit]

KDF water filtration media is a high-purity alloy of both copper and zinc, used in a flaked or granulated particulate form. Usually appearing gold or brass in colour.

Effectiveness[edit]

KDF is known to kill algae and fungi, control bacteria growth, and remove chlorine, pesticides, organic matter, rust, unpleasant taste and odour, hydrogen sulfide, iron, lead, nickel, chromium, cadmium, calcium, aluminium, mercury, arsenic, and other organic compounds.

KDF has a wide spread of effectiveness against a large number of impurities in water. KDF is optimised when used in conjunction with another filter media, especially any form of Activated carbon (whether in block OR granulated form).

Reactive process[edit]

KDF water filtration media utilize the principle of electrochemical oxidation reduction, more commonly known to the population as the redox process (Redox reaction) to eliminate a vast number of water contaminants.

The Redox Process and KDF Media[edit]

All items are recognised as having some form of electrical and magnetic charge. Some are positively charged and some are negatively charged, depending on their molecular structure and circumstances. The reason the Redox reaction works so well with KDF is because the two constituents of KDF are oppositely charged, copper is a positive element, and zinc is a negative element (zinc is positive but at a different redox state). So basically, Positively charged molecules (impurities and contaminants) are attracted to the negative charge of the zinc and negatively charged molecules (impurities and contaminants) are attracted to the positive charge of the copper.

see link below, zinc is a positively charged ion

http://nmsp.cals.cornell.edu/publications/factsheets/factsheet22.pdf

Water filtration process[edit]

Water passes through a bed of pure KDF or an Activated carbon/KDF mix. As the water makes contact with the KDF particles the Redox reaction takes place, removing such impurities as minerals, metals, dissolved oxygen and organic materials. The KDF itself creates a miniature electrolytic cell within the spaces between each particle, the zinc acting as the anode and the copper acting as the cathode within this cell, and the water and its impurities acting as the electrolyte through which the charge flows. When the contaminants and impurities found in water pass through this electrolytic cell, some substances, especially metals, react to the magnetic force exerted by the electrolytic cell and are attracted to the surface of the KDF particles, where they adhere. Other non-metal impurities react with the KDF and form zinc oxides, copper hydroxides, hydroxides, and sulfates in the water. These by-products remain within the drinking water, but are not dangerous[citation needed], also as part of this reaction, ozone is created and carried through into the drinking water, forming a hostile and desolate environment for algae, bacteria and any other array of micro-organism.[citation needed]

References[edit]

  1. Karl Weber (2012). Last Call at the Oasis: The Global Water Crisis and Where We Go from Here. Public Affairs. pp. 181–. ISBN 978-1-61039-144-3. Search this book on


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