Ionization alters water in two significant and measurable ways: pH and ORP. These alterations to water are what make it very different from other waters you may drink.
pH
The pH stands for "potential hydrogen" and is a measurement that provides an indication of the level of hydrogen in a substance. It is measured by the pH scale. Proper body pH is an important factor in good health. If any substance changes from pH 7 to pH 8, it has become ten times more alkaline. Conversely, if it has changes from neutral pH 7 to pH 6, it is 10 times more acidic. As an example, a popular Cola, at pH 2.5 is almost 50,000 times more acidic than neutral water, and needs 32 glasses of neutral (pH 7) water to counteract the consumption of one glass of Cola. (Active ingredient: Phosphoric Acid) You can now see that a change from the normal level 7.365 to pH 7 would mean that your blood would suddenly be around 4 times as acid as it should be. You would die from poisoning by your own blood. This is why every body system is used to support the correct blood pH.
You can also understand from this that our blood pH can be affected at any time of the day by a myriad of events; food, drink, stress, pollution, exercise, or beneficially, by meditation, by drinking alkaline water, by deep breathing, even by being happy.
pH
The pH stands for "potential hydrogen" and is a measurement that provides an indication of the level of hydrogen in a substance. It is measured by the pH scale. Proper body pH is an important factor in good health. If any substance changes from pH 7 to pH 8, it has become ten times more alkaline. Conversely, if it has changes from neutral pH 7 to pH 6, it is 10 times more acidic. As an example, a popular Cola, at pH 2.5 is almost 50,000 times more acidic than neutral water, and needs 32 glasses of neutral (pH 7) water to counteract the consumption of one glass of Cola. (Active ingredient: Phosphoric Acid) You can now see that a change from the normal level 7.365 to pH 7 would mean that your blood would suddenly be around 4 times as acid as it should be. You would die from poisoning by your own blood. This is why every body system is used to support the correct blood pH.
You can also understand from this that our blood pH can be affected at any time of the day by a myriad of events; food, drink, stress, pollution, exercise, or beneficially, by meditation, by drinking alkaline water, by deep breathing, even by being happy.
The other way an ionizer alters the water is in ORP. This stands for Oxidation Reduction Potential (also referred to as "Redox" - it's the same thing). Most leading water researchers from Asia agree that in ionized water the elevated pH is good, but that ORP is more important. Alteration to the OPR is what causes the microclustering, antioxidant and oxygenating effects.
ORP
ORP is a "potential" energy that is stored and ready to be put to work. It's not necessarily working, but we know that the energy is there and we can measure it. Another way to look at this potential might be to look at pressure. If you blow up a balloon, and there is air pressure inside. As long as the balloon is closed, the pressure remains and can be measured. When released, this potential energy becomes kinetic energy. In electrical terms, potential energy can be measured. When we use the term "potential" in describing ORP, we are actually talking about electrical potential as expressed in millivolts. This potential is measured in water with an ORP meter. What you measure is the very slight voltage in water. We are actually measuring the presence of oxidizing or reducing agents by their specific electrical charge, thus Oxidation Reduction "Potential". High pH water has more "reducing" agents (which are measured as negative ORP reading) and low pH water has more oxidizing agents (which are measured as a positive ORP reading). Oxidation is what turns an apple brown after it is cut or causes metal to rust. Antioxidants reduce the oxidizing effects of free radicals. Oxidation or "rust" weakens metal and signifies the deterioration of the apple. The process of oxidation “steals” electrons from the surface being oxidized. When we measure a something’s oxidizing potential, it is expressed in +ORP and measures the concentration of OH+ ions or oxidizing agents. A “reducing” agent is simply something that inhibits or slows the process of oxidation. The reducing agent does this by “donating” an electron. When we measure a something’s oxidation reduction potential, it is expressed in terms of –ORP and measures the concentration of OH- ions or reducing agents. In its most basic form a reducing agent is an “antioxidant” ~ reducing oxidation. Follow this link to read more detailed info about the science of pH and ORP. The ORP of most tap water in the USA is between +200 to +600mv and so is an oxidizing agent. High pH ionized water demonstrates a – ORP and so is a reducing agent or “antioxidant”. Most bottled waters are very acidic (low pH) and also have higher ORP.
On most ionizers you can only adjust the flow rate by using your faucet or tap. If your faucet is all the way "on", the water will process very fast through the machine. If your faucet is just barely "on", this reduces the flow and the water will process for much longer. With a fast flow rate you may only achieve slight alteration in pH and ORP, slow it down and you will get higher pH and better ORP. Simply put, speed it up, you get a less alteration; slow it down and you'll get more.
To illustrate this whole principle lets look at two very different tap waters and their effect on performance. Remember the crucial variable is the dissolved mineral content or TDS (total dissolved solids) which is measured in parts per million. This creates the pathway for the ionization to occur. In Carlsbad, California the tap water tests at 385 - 501ppm of total dissolved solids. The tap water in Seattle, Washington tests at approximately 40 – 47ppm. You could test water from an ionizer in Carlsbad at a given setting and flow rate and you would get a certain result. You could test the exact same ionizer in Seattle without altering the setting or flow rate and you would get dramatically different results. Is it the ionizer? No. It is the water as the main variable in performance. There is much less pathway in Seattle’s water. To further illustrate variability, you could alter the voltage or flow rates through the ionizer in either Carlsbad or Seattle and you would get different results again.
Comparing ORP
Lastly, comparing ORP is a tricky business. Stating absolute values is impossible. Anyone who really knows and understands ionizers/ORP would agree. Anyone who states absolutes in performance proves their ignorance on the science behind it. Further, pH and ORP are not tied to one another. In other words you can measure ORP in two pH9 waters and get two very different readings. Another factor to consider when comparing ORP is the level of pH you will drink.
Water with a pH over about pH10 does not taste good to the vast majority of people. Japanese research states that the ideal range for drinking alkaline water is between pH8.5 and pH9.5. Given this, testing ORP at those levels is where the real bang for the buck is; ORP at a pH level one would actually drink. Therefore, the only salient way to compare ORP in ionizers is side-by-side, with the same source water and each machine set to achieve the same drinkable level of pH. If you drink pH9 then the ORP you get at pH9 is the effective ORP in the ionizer.
Not some “absolute” or even extraordinarily high ORP. So understanding performance is like understanding a dance between the three variables. Understanding this dance is crucial to making an informed decision when purchasing an ionizer, and also in getting the most out of your ionizer’s performance.
ORP
ORP is a "potential" energy that is stored and ready to be put to work. It's not necessarily working, but we know that the energy is there and we can measure it. Another way to look at this potential might be to look at pressure. If you blow up a balloon, and there is air pressure inside. As long as the balloon is closed, the pressure remains and can be measured. When released, this potential energy becomes kinetic energy. In electrical terms, potential energy can be measured. When we use the term "potential" in describing ORP, we are actually talking about electrical potential as expressed in millivolts. This potential is measured in water with an ORP meter. What you measure is the very slight voltage in water. We are actually measuring the presence of oxidizing or reducing agents by their specific electrical charge, thus Oxidation Reduction "Potential". High pH water has more "reducing" agents (which are measured as negative ORP reading) and low pH water has more oxidizing agents (which are measured as a positive ORP reading). Oxidation is what turns an apple brown after it is cut or causes metal to rust. Antioxidants reduce the oxidizing effects of free radicals. Oxidation or "rust" weakens metal and signifies the deterioration of the apple. The process of oxidation “steals” electrons from the surface being oxidized. When we measure a something’s oxidizing potential, it is expressed in +ORP and measures the concentration of OH+ ions or oxidizing agents. A “reducing” agent is simply something that inhibits or slows the process of oxidation. The reducing agent does this by “donating” an electron. When we measure a something’s oxidation reduction potential, it is expressed in terms of –ORP and measures the concentration of OH- ions or reducing agents. In its most basic form a reducing agent is an “antioxidant” ~ reducing oxidation. Follow this link to read more detailed info about the science of pH and ORP. The ORP of most tap water in the USA is between +200 to +600mv and so is an oxidizing agent. High pH ionized water demonstrates a – ORP and so is a reducing agent or “antioxidant”. Most bottled waters are very acidic (low pH) and also have higher ORP.
On most ionizers you can only adjust the flow rate by using your faucet or tap. If your faucet is all the way "on", the water will process very fast through the machine. If your faucet is just barely "on", this reduces the flow and the water will process for much longer. With a fast flow rate you may only achieve slight alteration in pH and ORP, slow it down and you will get higher pH and better ORP. Simply put, speed it up, you get a less alteration; slow it down and you'll get more.
To illustrate this whole principle lets look at two very different tap waters and their effect on performance. Remember the crucial variable is the dissolved mineral content or TDS (total dissolved solids) which is measured in parts per million. This creates the pathway for the ionization to occur. In Carlsbad, California the tap water tests at 385 - 501ppm of total dissolved solids. The tap water in Seattle, Washington tests at approximately 40 – 47ppm. You could test water from an ionizer in Carlsbad at a given setting and flow rate and you would get a certain result. You could test the exact same ionizer in Seattle without altering the setting or flow rate and you would get dramatically different results. Is it the ionizer? No. It is the water as the main variable in performance. There is much less pathway in Seattle’s water. To further illustrate variability, you could alter the voltage or flow rates through the ionizer in either Carlsbad or Seattle and you would get different results again.
Comparing ORP
Lastly, comparing ORP is a tricky business. Stating absolute values is impossible. Anyone who really knows and understands ionizers/ORP would agree. Anyone who states absolutes in performance proves their ignorance on the science behind it. Further, pH and ORP are not tied to one another. In other words you can measure ORP in two pH9 waters and get two very different readings. Another factor to consider when comparing ORP is the level of pH you will drink.
Water with a pH over about pH10 does not taste good to the vast majority of people. Japanese research states that the ideal range for drinking alkaline water is between pH8.5 and pH9.5. Given this, testing ORP at those levels is where the real bang for the buck is; ORP at a pH level one would actually drink. Therefore, the only salient way to compare ORP in ionizers is side-by-side, with the same source water and each machine set to achieve the same drinkable level of pH. If you drink pH9 then the ORP you get at pH9 is the effective ORP in the ionizer.
Not some “absolute” or even extraordinarily high ORP. So understanding performance is like understanding a dance between the three variables. Understanding this dance is crucial to making an informed decision when purchasing an ionizer, and also in getting the most out of your ionizer’s performance.