Difference between revisions of "Opportunities of accelerating the GANS production"

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====GANS production with current, resistor, fishtank pump. ====
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{{GANS navigation table}}
When you produce GANSes with current, it takes a little bit longer, but the quality is better.
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__TOC__
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<div style="clear:both;"></div>
  
If you need a GANS quick, you can use current/electricity, also a battery is good for it. Depending on the GANS and electricity, you have too use a fishtankpump too.   
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== Basics of acceleration and quality ==
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Important basics for an accelerated GANS production are the '''Nano-coating, Salt content, Temperature''' and '''Nano-coated Plastic boxes.'''
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The proper the [[Nano-coating using NaOH|'''Nano-coating''']], the better and faster is the GANS production. Also you can speed up the production with a higher '''Salt content''', for example 7, 10 or up to 20%, but consider, the higher the Salt content, the more the quality decreases. The '''temperature''' is very important too. Optimal wood be a temperature between room temperature (25°) and 40°C.
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During the first GANS production the '''plastic box''' become Nano-coated and from the second GANS production on, the production gets faster and more. But use only CO2 GANS plastic boxes for CO2 GANS again, otherwise there will be other fields inside.
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==GANS production with current, resistor and fishtank pump ==
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When you produce GANSes without current, it takes a little bit longer, but the quality is better.
 +
 
 +
If you need a GANS quick, you can use current/electricity, also a battery is good for it. Depending on the GANS and electricity, you have too use a fish tank pump too.   
  
 
Read detailed descriptions:  
 
Read detailed descriptions:  
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=== CO2 GANS ===
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[[File:Resistor 150 OHM, 15-20 mA.jpg|thumb|
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Resistor: 150 Ohm and 15 to 20 mA
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]]
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If you use for example for a CO2 production a fully charged 1.5V AA battery is to much power and the CO2 gets to dark from it. So instead of it you can use a resistor, which you set in serial (150 Ohm and 15 to 20 mA) (picture besides).
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=== ZnO GANS ===
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To speed up the ZnO production you can use a small amount of DC current and optional also an aerator (fish tank pump).  You can also use a DC device that provides approximately 15 mA DC current between the two plates (or coils) instead of the Zink wire. The negative pole of the device is connected with to the  Nano-coated Zinc and the positive pole of the device is connected to the uncoated Zinc. If you use a current you can use an aerator (fish tank pump) to provide additional Oxygen to the Salt water solution.
  
'''CO2:''' If you use for example for a CO2 production a fully charged 1.5V AA battery is to much power and the CO2 gets to dark from it. So instead of it you can use a resistor, which you set in serial (150 Ohm and 15 to 20 mA) (picture besides).
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=== CH3 GANS ===
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Unlike the production of CO2 GANS, you can use a very small amount of DC current and a fish tank pump (aerator) to speed the production process, but the pump is not mandatory. At first, there will be a reaction between Zinc and Nano-coated Copper, after a while, the reaction between Iron and Nano-coated copper starts. You can use a common, adjustable DC device, which produces current of approximately 15 mA between the two metal plates instead of the connection of a Copper wire. If you do, the negative pole of the device is attached to the Nano-coated Copper coil or plate and the positive pole of the device is connected to the iron. You could also use a 1.5 V battery as power source.  If you use any kind of current you should aerate the Salt solution with a small fish tank pump.  It will only take a few hours to produce a reddish brown layer of CH3 GANS at the bottom of the container.  To get a better result, you can mount a coil of a PC fan between the two plates instead of a wire or a current source.
  
'''ZnO:''' to speed up the ZnA production you can use a small amount of DC current and optional also an aerator (fish tank pump).  You can also use a DC device that provides approximately 15 mA DC current between the two plates (or coils) instead of the Copper wire. The negative pole of the device is connected with to the  Nano-coated Zinc and the positive pole of the device is connected to the uncoated Zinc. If you use a current you can use an aerator (fish tank pump) to provide additional Oxygen to the Salt water solution.
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=== CuO GANS ===
  
'''CH3:''' Unlike the production of CO2 GANS, you can use a very small amount of DC current and a fish tank pump (aerator) to speed the production process, but the pump is not mandatory. At first, there will be a reaction between Zinc and Nano-coated Copper, after a while, the reaction between Iron and nanocoated copper starts. You can use a common, adjustable DC device, which produces current of approximately 15 mA between the two metal plates instead of the connection of a Copper wire. If you do, the negative pole of the device is attached to the Nano-coated Copper coil or plate and the positive pole of the device is connected to the iron. You could also use a 1.5 V battery as power source.  If you use any kind of current you should aerate the Salt solution with a small fish tank pumpIt will only take a few hours to produce a reddish brown layer of CH3 GANS at the bottom of the container.  To get a better result, you can mount a coil of a PC fan between the two plates instead of a wire or a current source.
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To speed up the GANS production process, you can use a small amount of DC current and a small aerator (fish tank pump). A DC-device, which provides approximately 15 mA DC current between the two plates, or coils, can be used instead of the Copper wire between the plates. The negative pole of the device is connected to the Nano-coated Copper and the positive pole of the device is connected to the uncoated Copper. If you use a current you must apply an aerator to provide additional Oxygen to the Salt water solution.  After a few hours a turquoise layer builds on the bottom of the container and settles there. This is CuO GANS.  To get a better result, you can mount a coil of a PC fan between the two metals instead of a wire or a current source.
  
'''CuO:''' To speed up the GANS production process, you can use a small amount of DC current and a small aerator (fish tank pump).  A DC-device, which provides approximately 15 mA DC current between the two plates, or coils, can be used instead of the Copper wire between the plates. The negative pole of the device is connected to the Nano-coated Copper and the positive pole of the device is connected to the uncoated Copper. If you use a current you must apply an aerator to provide additional Oxygen to the Salt water solution.  After a few hours a turquoise layer builds on the bottom of the container and settles there. This is CuO GANS.  To get a better result, you can mount a coil of a PC fan between the two metals instead of a wire or a current source.
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Latest revision as of 00:23, 27 June 2019

Basics for the production and processing of GANS
back to categorie: GANS

Basics of acceleration and quality

Important basics for an accelerated GANS production are the Nano-coating, Salt content, Temperature and Nano-coated Plastic boxes.

The proper the Nano-coating, the better and faster is the GANS production. Also you can speed up the production with a higher Salt content, for example 7, 10 or up to 20%, but consider, the higher the Salt content, the more the quality decreases. The temperature is very important too. Optimal wood be a temperature between room temperature (25°) and 40°C.

During the first GANS production the plastic box become Nano-coated and from the second GANS production on, the production gets faster and more. But use only CO2 GANS plastic boxes for CO2 GANS again, otherwise there will be other fields inside.

GANS production with current, resistor and fishtank pump

When you produce GANSes without current, it takes a little bit longer, but the quality is better.

If you need a GANS quick, you can use current/electricity, also a battery is good for it. Depending on the GANS and electricity, you have too use a fish tank pump too.

Read detailed descriptions:

CO2 GANS

Resistor: 150 Ohm and 15 to 20 mA

If you use for example for a CO2 production a fully charged 1.5V AA battery is to much power and the CO2 gets to dark from it. So instead of it you can use a resistor, which you set in serial (150 Ohm and 15 to 20 mA) (picture besides).

ZnO GANS

To speed up the ZnO production you can use a small amount of DC current and optional also an aerator (fish tank pump). You can also use a DC device that provides approximately 15 mA DC current between the two plates (or coils) instead of the Zink wire. The negative pole of the device is connected with to the Nano-coated Zinc and the positive pole of the device is connected to the uncoated Zinc. If you use a current you can use an aerator (fish tank pump) to provide additional Oxygen to the Salt water solution.

CH3 GANS

Unlike the production of CO2 GANS, you can use a very small amount of DC current and a fish tank pump (aerator) to speed the production process, but the pump is not mandatory. At first, there will be a reaction between Zinc and Nano-coated Copper, after a while, the reaction between Iron and Nano-coated copper starts. You can use a common, adjustable DC device, which produces current of approximately 15 mA between the two metal plates instead of the connection of a Copper wire. If you do, the negative pole of the device is attached to the Nano-coated Copper coil or plate and the positive pole of the device is connected to the iron. You could also use a 1.5 V battery as power source. If you use any kind of current you should aerate the Salt solution with a small fish tank pump. It will only take a few hours to produce a reddish brown layer of CH3 GANS at the bottom of the container. To get a better result, you can mount a coil of a PC fan between the two plates instead of a wire or a current source.

CuO GANS

To speed up the GANS production process, you can use a small amount of DC current and a small aerator (fish tank pump). A DC-device, which provides approximately 15 mA DC current between the two plates, or coils, can be used instead of the Copper wire between the plates. The negative pole of the device is connected to the Nano-coated Copper and the positive pole of the device is connected to the uncoated Copper. If you use a current you must apply an aerator to provide additional Oxygen to the Salt water solution. After a few hours a turquoise layer builds on the bottom of the container and settles there. This is CuO GANS. To get a better result, you can mount a coil of a PC fan between the two metals instead of a wire or a current source.

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