Energy from Hydroxides
Experimentation has indicated potential for excess energy production from direct current electro-detonation of simple compounds containing hydroxide groups, when specific metal catalysts are present.
Physics
Hydroxide groups are expected to act as catalysts allowing transitions of hydrogen electrons to the first de-excited state (n=1/2, k=-1). This transition is expected to release energy as visible and ultraviolet (UV) light.
S. Brink 14th August 2016
Calcium Hydroxide
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S. Brink 14th August 2016
Lithium Hydroxide
Barium Hydroxide
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S. Brink 14th August 2016
Zirconium Hydroxide
Potassium Hydroxide
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S. Brink 14th August 2016
Tartaric Acid
HO2CCH(OH)CH(OH)CO2H
Citric Acid
2-hydroxypropane-1,2,3-tricarboxylic acid
S. Brink 14th August 2016
S. Brink 14th August 2016
Magnesium Hydroxide
Copper (II) Hydroxide
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Hydrogen Hydroxide
(water)
Experiments
Method: Visible light energy output during direct current electro-detonation of compounds containing hydroxide groups were assessed under a wide range of experimental conditions, using a range of electrode materials.
Observations: Reaction morphology and energy output varied with hydroxide compound type. Indications of excess energy output were observed from a number of compounds containing specific catalysts.
Conclusion:
Observations are consistent with a combination of a hydroxide groups and certain metals facilitating transitions of hydrogen electrons to de-excited states during electro-stimulation.
Experiments and photography
by Subtle Atomics.
Provisional patent lodged.
Metal Hydride Energy