lolamilans
- 160
- 18
adactacion system Pelleringa .............
I have discarded the non-return valve, and ke is bert wing co2 atmosphere (greenhouse) and not in the aquarium, x therefore no risk of flooding.
in theory this is well
I will not dwell on explaining what the electrolysis (Google is your friend). Only indicate that it is circulating electric current across two electrodes immersed in a liquid conductor (electrolyte).
In our case the water is slightly conductive electrolyte with dissolved salts (distilled would not). Can increase its conductivity at the end of the assembly if necessary, for example by adding sodium bicarbonate.
The anode (positive pole in our invention) will consist of one or more of graphite rods and the cathode (negative) corresponds to the steel of our package (a thermos).
When connected, generated in the cathode H2 + CO2 and O2 at the anode. The CO2 is provided by the graphite bar that will be spent over time.We can only set a lower than optimal and supported by the feeder.
Empty the water from the tap device and replaced by bottled water (to avoid release chlorine gas). It may take two things that surpass the maximum supported by our power or not.
In the first case, change the water the other with lower salt content, etc.. and therefore lower conductivity and repeat.
In the second case, we will try to approach the maximum allowed by the feeder (leaving a safety margin) by adding bicarbonate to the water (never add salt)-------------------------------------------------------------------------------- Thermos stainless steel about 3 / 4 liter.
- Graphite rods (of arc welding, rods laboratory, ...).
- Feed current from 0 to 12V and 500mA or more. Adjustable switch or potentiometer.
- Tape
- 2 coin of 1 euro cent.
- Hollow screw
- A clamp
- A pier.
- Sodium bicarbonate (may be required).
- Water may be added a bubble meter (easy) and find an appropriate ........
either by increasing the conductivity or increasing the voltage ............. all is question of optimizing:character0103:
I have discarded the non-return valve, and ke is bert wing co2 atmosphere (greenhouse) and not in the aquarium, x therefore no risk of flooding.
in theory this is well
I will not dwell on explaining what the electrolysis (Google is your friend). Only indicate that it is circulating electric current across two electrodes immersed in a liquid conductor (electrolyte).
In our case the water is slightly conductive electrolyte with dissolved salts (distilled would not). Can increase its conductivity at the end of the assembly if necessary, for example by adding sodium bicarbonate.
The anode (positive pole in our invention) will consist of one or more of graphite rods and the cathode (negative) corresponds to the steel of our package (a thermos).
When connected, generated in the cathode H2 + CO2 and O2 at the anode. The CO2 is provided by the graphite bar that will be spent over time.We can only set a lower than optimal and supported by the feeder.
Empty the water from the tap device and replaced by bottled water (to avoid release chlorine gas). It may take two things that surpass the maximum supported by our power or not.
In the first case, change the water the other with lower salt content, etc.. and therefore lower conductivity and repeat.
In the second case, we will try to approach the maximum allowed by the feeder (leaving a safety margin) by adding bicarbonate to the water (never add salt)-------------------------------------------------------------------------------- Thermos stainless steel about 3 / 4 liter.
- Graphite rods (of arc welding, rods laboratory, ...).
- Feed current from 0 to 12V and 500mA or more. Adjustable switch or potentiometer.
- Tape
- 2 coin of 1 euro cent.
- Hollow screw
- A clamp
- A pier.
- Sodium bicarbonate (may be required).
- Water may be added a bubble meter (easy) and find an appropriate ........
either by increasing the conductivity or increasing the voltage ............. all is question of optimizing:character0103: