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Firefly Personal Plasma System |
Extra Technical Information on all aspects: Ovo Reactor Tube R&D A cross section of the reactor tube theory and practice.
Thermal Dynamics
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Ovo Index 0. Ovo Index
Related Info 3. Optimal Colloidal Conditions
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Q - What causes colloidal gold to fall out of solution?
A - Rapid cooling. - Reduction in temperature beyond the point that water maintains mineral holding capacity. |
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| Many people have asked the question: " How should I store my colloids, does it matter? " I have printed on the labels of my colloids for some time now the following information.
At first glance this seems confusing give that most people who are aware of colloidal silver know that silver is photo-reactive and keeps best away from bright light (especially UV, aka ionizing radiation) For a particulate such as gold light isn't a problem. The issue is HEAT! (and the sudden lack there of)
Direct sunlight is a powerful heat source: (I know, state the obvious right?) Given the capacity for gold to reflect 99.9% of all thermal band radiation (infra-red) we end up with an increased reflected radiation from our colloid than say an ordinary glass of water. The larger mass of the colloid is not going to heat up... rather the container that the colloid is in should become hotter (relatively speaking) than the contents.
Given that water itself is a rather good thermal insulator we end up with a thermal differential between the now hot layer of colloid gold nearest the container wall that is increasing in heat and the cooler interior liquid. This thermal differential creates the well known 'convection' to occur and this convection current mixes the hot into the cold colloid. The result? Gold fallout by way of agglomeration.
To further explain this issue we only need to investigate the properties of water... (not gold) Water has some interesting properties that other liquids do not. For instance, freezing water expands instead of shrinking. Here is a link on 'ice spikes' that demonstrates this properly very well. Ok... so understand that during a rapid cooling water undergoes a state that forces the gold to separate from the nice balance that allows a colloidal state to exist.. If convection were an aggressive force we could rely on it to mix our colloid during production. As convection is generally defeated by the colder water separating itself from the hot water creating a thermal boundary we need to mix the batch as it is produced to keep an overall thermal consistency. The bubbles of gas (oxygen and hydrogen) created by electrolysis are guided through the tube and create conditions favorable for moving water. Specifically we want to move the water from the bottom (cold zone) to the top (hot zone) constantly and quickly to maintain that the two zones never create a thermal differential that could ruin our batch of colloidal gold.
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All content and photos copyright (c) 2005,2006,2007,2008 Karl Reinhart of The Shekinahguild. |
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