125 How does an ionizer work? A water ionizer is a small kitchen appliance that separates tap water into two separate streams - one alkaline and one acidic - through a process called electrolysis. Ionizers can either be installed on the counter next to the kitchen sink or under the counter with only a special faucet visible above the counter. Ionization breaks the bond between the oxygen and hydrogen atoms of a water molecule [H2O] and produces alkaline water full of hydroxyl ions [OH-] and and acid water full of hydrogen ions [H+]. What are pH and ORP? The pH scale measures how acidic or alkaline a substance is. It ranges from 0 to 14. A pH of 7 is neutral, a pH less than 7 is acidic, and a pH greater than 7 is
(or basic). ORP, or oxidation reduction potential, measures a substance's ability to oxidize or reduce molecules around it, or in other words, it's potential to steal or donate electrons. pH and ORP are key concepts to understand ionization and the important health benefits of alkaline ionized water. Water, the chemistry of life. Water is essential for life. No living being on planet Earth can survive without it. In fact, about 70 to 90 percent of all organic matter is composed of water. Water not only provides the medium to make life sustaining chemical reactions possible, but water itself is often an important reactant or product of these reactions. In short, the chemistry of life is water chemistry. This section provides some basic concepts that help to understand the chemistry of water and the science behind water ionization at the molecular level.
112 In the 1880's, Louis Pasteur published his work on cellular aerobic respiration and glycolysis. In 1931, Otto Warburg won the Nobel Prize for his work on the metabolism of tumors and the respiration of cells, which was later summarized in his 1956 paper, On the Origin of Cancer Cells. His work on cancer expanded upon Pasteur's findings and described respiratory insufficiency and a cellular metabolism of glucose fermentation as the primary trigger for cancer progression.
Warburg's conclusions on cancer were much discussed in scientific circles, as they are academically elegant, but were not accepted by most members of the scientific community engaged in cancer research. Most cancer researchers in the late 1950's believed that the anaerobic metabolism of cancer cells and their accompanying output of lactic acid was a side effect or an adjunct effect of cancer, not a cause. Cancer research since the 1960's has focused primarily on genetic aberrations as causative for cancer, and has ignored the body of research on cancer pH and its implications for therapeutic approaches. Warburg's work was a catalyst for yet another research effort on the nature of cancer cells, beginning in the 1930's. A. Keith Brewer, PhD (physicist) performed experiments on the relationship between energized, oxygenated cell membrane and elemental uptake, vs. cellular membranes in an unenergized state such as cancer cells exhibit. He wrote a number of papers discussing the cellular mechanisms of cancer cells and the changes in metabolism induced or indicated by the lack of or presence of oxygen in combination with other elements, particularly potassium and calcium. He noted that cancer cells share one characteristic no matter what type of cancer: they have lost their pH control mechanism.