The Copper silver ionization mineral pure is the water disinfection process that uses ions of silver and copper to kill bacteria, viruses, and protozoans. The silver and copper ions are generated by passing an electric current through a solution of salt water and silver wire. The process is effective at killing a wide range of microorganisms, including Giardia, Cryptosporidium, Legionella, and E. coli.
Copper silver ionization is a mineral-based water purification technology that has been used for over 50 years. It is a safe and effective way to kill bacteria, viruses, and other harmful organisms in the water. Copper silver ionization works by passing an electrical current through a solution of copper and silver ions. This creates a reaction that produces chlorine, which kills the bacteria and other organisms in the water.
Copper silver ionization is a process that uses electricity to generate silver ions, which then disinfect water. This process is used to treat water for drinking, irrigation, and swimming pool water. Copper silver ionization is considered a safe and effective method of water treatment.
Copper Silver Ionization is a mineral that is pure and effective in killing germs. It has been used for years in hospitals and other medical facilities because of its ability to kill a wide range of bacteria, viruses, and fungi. Copper silver ionization also works well in treating water, making it safe to drink. The main benefit of using this mineral is that it is a natural way to kill germs and bacteria without the use of chemicals.
Features of Copper silver ionization mineral pure
Copper silver ionization mineral pure is a product that offers many benefits to its customers. Some of these benefits include the fact that it is a natural way to purify water, it is more effective than chlorine, and it is also safer to use. This product is perfect for those who are looking for an alternative to traditional methods of water purification.
people are using copper for quite 11.000 years and are using silver for quite 5000 years. Copper is often easily extracted and processed. More dan 7000 years ago people developed a copper extraction mechanism for copper ores. The Roman Empire gained most of its copper from Cyprus, the isle that gave copper its name.
Nowadays copper has been specially extracted from ores, like cuprite (CuO2), tenorite (CuO), malachite (CuO3·Cu(OH)2), chalcocite (Cu2S), covellite (CuS), and bornite (Cu6FeS4). Large deposits of copper ores are found throughout the US, Chili, Zambia, Zaïre, Peru, and Canada.
Silver is often obtained from pure deposits, from silver ores like argentite (Ag2S) and horn silver (AgCl), and combined with ore deposits that contain lead, gold, or copper.
Both copper and silver are applied for hundreds of years due to their biocidal mechanism. The Vikings used copper strings on their ships to stop the expansion of algae and shells. Modern ships still use an equivalent technology.
Most anti-fouling paints contain copper, reducing the number of marine species growing on the walls of ships. due to this measure, ships can reach their destination faster.
Nomads used silver coins to enhance beverage quality. groundwater containing copper and silver coins is extremely bright, thanks to the biocidal effect of those metals.
Since 1869 various publications have appeared on the disinfection properties of silver. Some European and Russian villages are using silver for beverage treatment for several years.
Copper-silver ionization was developed in both Europe and therefore within the 1950s.
How are copper-silver ions produced?
Copper-silver ionization is caused by electrolysis. an electrical current is made through copper-silver, causing charged copper and silver ions to make.
Copper-silver ionization brings us back to basic chemistry: an ion; an electrically charged atom, features a charge when it gives up an electron and a charge when it takes up an electron. A charged ion is called a cation and a charged ion is called an anion. During ionization, atoms become kations or anions. When copper-silver ionization is applied, charged copper (Cu+ and Cu2+) and silver (Ag+) ions are formed.
The electrodes are placed approximately. The water that’s disinfected flows past the electrodes. an electrical current is made, causing the outer atoms of the electrodes to lose an electron and become charged. The larger part of the ions flows away through the water, before reaching the other electrode. Generally, the quantity of silver ions at a copper ion rate of 0,15 to 0,40 ppm lies between 5 and 50 ppb.
The ion concentration is decided by the water flow. the number of ions that are released increases, when electric charges are higher.
When copper ions (Cu+) dissolve in water, they’re oxidized immediately to make Cu2+ ions. Copper is often found within the water in free morpheme. it’s a common bond to water particles. Copper (Cu+) ions are unstable in water unless a stabilizing ligand is present.
What are the applications of copper-silver ionization?
Copper-silver ionization is suitable for an outsized number of applications. It became of interest when NASA used copper-silver ionization for beverage production aboard Apollo space ships in 1960. The ion generator that was used, was the dimensions of a matchbox.
Because of copper-silver ionization, beverages might be produced safely in space without the utilization of chlorine.
What is the disinfection mechanism of copper-silver ionization?
Electrically charged copper ions (Cu2+) within the water look for particles of opposite polarity, like bacteria, viruses, and fungi. charged copper ions form electrostatic compounds with charged cell walls of microorganisms. These compounds disturb cell membrane permeability and cause nutrient uptake to fail. Copper ions penetrate the cell membrane and as a result, they’re going to create an entrance for silver ions (Ag+). These penetrate the core of the microorganism. Silver ions bond to varied parts of the cell, like the DNA and RNA, cellular proteins, and respiratory enzymes, causing all life support systems within the cell to be immobilized. As a result, there’s no more cellular growth or cellular division, causing bacteria not to multiply and eventually die out. The ions remain active until they’re absorbed by a microorganism.
Clear window for easy monitoring and secure latch. The unit includes a control box (which will work on 110/220 VAC automatically), 6 electrodes (one set per 75,000 gallons of water being treated), a unique clear flow cell chamber, electrode wire, mounting brackets, and test kit All models are NSF Standard 50 approved, UL and CUL listed. NASA licensed technology.
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