Kallog

in your image it looks like you are fillig the container at the bottom , and extracting the buoyant energy as it rises upwards to the top , then filling it with water and sinking it , then at the bottom you would need to let the water out again in order to put more gasses in.

this wont work because you would need to pump that amount of water back into the resouvior.

in my example the water is turned into HHO inside the container then the HHO is fed out of the system to the engine.

and in my example you dont fill the container from the water in the resouvior to cause it to sink again.

this way you dont need to pump water into the resouvior as in your example and the example in the video.

it does not use the buoyancy of all of the HHO it only uses whats left in the container after the electrolisis
process is completed.


Quote:
If one bouyant doesn't produce enough energy to make up for filling/emptying itself, then adding more will only compound the problem.


if I have a rope that has a 1 lb weight tied at the end of it and threw the end with the weight into the ocean.

and you were holding the other end , and you jump into the ocean , and I was going to tie 1 more 10 lb weight to the end dangling in the ocean every minute at which point would you ask me to stop.

because every time I tie on another weight to the rope
you must supply the force to keep yourself afloat.

if the rope has only 1 lb of weight on it you need to supply a constant force of 1 lb to keep you from sinking.

but if the rope has only 100 lb of weight on it you need to supply a constant force of 100 lb to keep you from sinking.

so adding more buoyants does make a difference and since you are only emptying 1 container at a time , the more empty containers the more force they will supply to pay for the energy you use to make the HHO.

for instance a 1 litre container has a buoyant force of
2.2 lbs
2 = 4.4 lbs
4 = 8.8 lbs
10 = 20.20 lbs

remember constant force.

the energy reqired to make 1 litre of HHO a minute at the bottom will never change.

but the amount of energy you can recover with the buoyants will increase with every added container.






3/4 inch of dust build up on the moon in 4.527 billion years,LOL and QM is fantasy science.