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How does
BioAktiv work?
Mode of Action
BioAktiv
powder is largely made on the basis of highly purified and pulverized natural
chalk meal. Other supporting materials are common salt and magnesium
sulphate. The production process was developed by non-medical
practitioners.
A synthesizer feeds the specific natural vibration of oxygen into a large
energy accumulator which generates a powerful vibrating field with the
natural frequency of the oxygen atom. Depending on final product use,
other vibrations such as those of trace elements and other materials are
added to, or superimposed on, the oxygen vibration.
The supporting material, e. g. chalk meal or common salt, is introduced
into this ultrahigh vibrating field and resonated for several hours so
that it takes on the specific information permanently. It may then, for
example, transmit the information to water and have the effect described.
While spectral analysis can not distinguish between treated and untreated
chalk, the latter simply does not "work". Effects can only be expected
after treatment.
It should be noted that no radioactive energy of
whatever kind is used. Nor are chemicals added to the basic materials. The
final products are not toxic and present no risk to humans, animals and
the soil. This is guaranteed.
For the procedure exist various patents. The manufacturer keeps a number
of important details secret, including particularly the "formulas" for
generating vibrations which are behind the success of the powder.
Mode of action
When adding Bio Aktiv powder to compost, topsoil, water, sewage sludge,
liquid manure etc., information is transmitted via the oxygen contained in
these materials. Immediately after application, the aerobic putrefaction
bacteria multiply while their anaerobic counterparts are clearly reduced.
Aerobic bacteria need oxygen for multiplication, which is introduced with
the water in which BioAktiv powder is dissolved.
In addition, the bacteria consume carbon and release microscopic CO2
bubbles. These are absorbed by microflora such as miniature algae, mosses,
etc. which assimilate and give off oxygen to the ambient region. At the
same time, the CO2 reduces the pH which immediately hampers ammonia
development in liquid manure. The oxygen released is again absorbed by the
aerobic bacteria which can further multiply so that the process continues
and accelerates. Oxygen enrichment thus stops anaerobic rotting (denitrification)
while encouraging aerobic putrefaction.
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