Difference between revisions of "Additional Nano-coating opportunities"
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| − | + | === About the use of NaOH with KOH or other additives in Nano-coating === | |
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| + | 100% NaOH is used in the standardized Nano-coating process. With this Nano-coating, CO2 GANS can be produced, for example, which does not contain any other fields. When we talk about CO2 GANS, we mean the Nano-coating by NaOH. It is also possible to add other additives to NaOH or distilled water during the Nano-coating process. However, this can only be done if it is really for a purpose, because every addition of additives also has its effects. For example, KOH (20%) can be added as flakes/powder to NaOH (80%) before boiling water is added. However, this gives a different CO2 GANS, which also includes the fields of Potassium. This should only be used when the fields of Potassium are needed in some form later. It is also possible to add a few drops of CO2 GANS water to the distilled water used for the Nano-coating process, but only if you want to produce CO2 GANS with the Nano-coated Copper plates. Otherwise the CO2 fields will be increasingly stored in the Nano-coating and if they are used for the production of e.g. CuO GANS, no pure CuO GANS will be produced. In general it should be said that the use of KOH or other additives in the Nano-coating process should be avoided unless you know 100% what you are doing. The coating process developed by the Keshe Foundation only with NaOH is fully suitable for all later applications. Desired additives can be added at the later GANS production, see "[[Methods of making all other GANSes|Methods to produce all other GANSes]]" or with the "[[Replication Units]]". | ||
=== Polishing the Nano-Coating === | === Polishing the Nano-Coating === | ||
| − | A opportunity for | + | A opportunity for compressing fields is to polish the Nano-coating during a lot of repetitions. |
| − | For polishing a Nano-coating you use a very fine cloth, what you use for example to clean glasses. It’s finer than an 8.000 cent paper. You polish it in circles and then you Nano-coat it again. | + | For polishing a Nano-coating you use a very fine cloth, what you use for example to clean glasses. It’s finer than an 8.000 cent paper. You polish it in circles and then you Nano-coat it again. Nano-coating it again means, that you hang it back into the box with a warm environment between 30-40 degrees. With this temperature the moisture (little steams) is in the box which is needed to build up more Nano-layers. |
| − | + | The top surface breaks through it and you more or less seal it and then you grow on this sealed surface new Nano-layers. From Nano-coating to Nano-coating the fields become more compressed. | |
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=== Coating of plastic balls === | === Coating of plastic balls === | ||
Latest revision as of 17:32, 17 June 2019
Contents
About the use of NaOH with KOH or other additives in Nano-coating
100% NaOH is used in the standardized Nano-coating process. With this Nano-coating, CO2 GANS can be produced, for example, which does not contain any other fields. When we talk about CO2 GANS, we mean the Nano-coating by NaOH. It is also possible to add other additives to NaOH or distilled water during the Nano-coating process. However, this can only be done if it is really for a purpose, because every addition of additives also has its effects. For example, KOH (20%) can be added as flakes/powder to NaOH (80%) before boiling water is added. However, this gives a different CO2 GANS, which also includes the fields of Potassium. This should only be used when the fields of Potassium are needed in some form later. It is also possible to add a few drops of CO2 GANS water to the distilled water used for the Nano-coating process, but only if you want to produce CO2 GANS with the Nano-coated Copper plates. Otherwise the CO2 fields will be increasingly stored in the Nano-coating and if they are used for the production of e.g. CuO GANS, no pure CuO GANS will be produced. In general it should be said that the use of KOH or other additives in the Nano-coating process should be avoided unless you know 100% what you are doing. The coating process developed by the Keshe Foundation only with NaOH is fully suitable for all later applications. Desired additives can be added at the later GANS production, see "Methods to produce all other GANSes" or with the "Replication Units".
Polishing the Nano-Coating
A opportunity for compressing fields is to polish the Nano-coating during a lot of repetitions.
For polishing a Nano-coating you use a very fine cloth, what you use for example to clean glasses. It’s finer than an 8.000 cent paper. You polish it in circles and then you Nano-coat it again. Nano-coating it again means, that you hang it back into the box with a warm environment between 30-40 degrees. With this temperature the moisture (little steams) is in the box which is needed to build up more Nano-layers.
The top surface breaks through it and you more or less seal it and then you grow on this sealed surface new Nano-layers. From Nano-coating to Nano-coating the fields become more compressed.
Coating of plastic balls
In contrast to glass balls the plastic balls hold the fields rather inside.Tests showed, that Nano-coated plastic balls are much more efficient. The most common way to coat plastic balls is, just adding it to Caustic. The Caustic has to touch the inside and the outside, to coat both surfaces.
Direct the Nano-Layer flow with a battery
For giving the Nano-coating the flow a direction, you can use a standard 1.5V battery, if you do not have a multimeter or if you want to be save, because sometimes multimeters go "crazy" and don't work right.
Battery 1.5V holder
Battery 1.5V for directing the Nano-Layer flow.jpg
