Successful promotion is currently the biggest challenge.
with only 4 to one output/input its a bit difficult to promote..
10:1 would be much easier ro promote
with 500 Ev available for each shrunken hydrogen molecule 10:1should be no problem
Successful promotion is currently the biggest challenge.
with only 4 to one output/input its a bit difficult to promote..
10:1 would be much easier ro promote
with 500 Ev available for each shrunken hydrogen molecule 10:1should be no problem
ATP synthase has ratchet construction
the ATP syntase needs no energy from the vacuum or overunity.
It is relatively inefficent in energy terms
with input /output calculated as pN.nm/s./Q = 100 pN.nm/s.
or 30,000:1.
with only 4 to one output/input its a bit difficult to promote..
10:1 would be much easier ro promote
with 500 Ev available for each shrunken hydrogen molecule 10:1should be no problem
What I meant to say is the promotion of the principles of Hydrino or better Ultra Dense Hydrogen or Deuterium.
It's relatively easy to produce and there are three levels of energy harvesting/production (see my post earlier).
BLP choosed to implement the condensation energy harvesting option in a rather crude and complex way, so I agree with you there must be better options. But we need the wider interest of engineers and scientists.
QuoteIt is relatively inefficent in energy terms
It proves anything. The ATP efficiency is low if calculated from the useful mechanical work it produces - but it's quite high when the ‘useful outcome’ is measured in the number of H+ pushed against the chemical gradient.
the number of H+ pushed against the chemical gradient.
Is this a unit of stored energy? "Breatharions"? We need to tell Human Barbie about this breakthrough.
QuoteIs this a unit of stored energy?
In living cells yes, because proton gradient is driving various chemistry in living cells.