Greetings, I'm a newbee but I just wanted to say that I am so impressed with the results that you and SmartScareCrow are getting that I have started building a 'Closed Cell' as well. Thanks and keep the videos comming.. I need all the help I can get... BTW, I actually have had a bit of success with my first prototype (not closed cell) so I am anxious to do better... I believe the Closed Cell design will do the trick...
I have read and seen a lot in the last month. From TH-cam and -OU-. I have half-baked ideas, but perhaps you can help: 1) Can you use Cascade (dishwasher detergent) as an additive to modify the surface tension of water as effectively as ultrasonics? 2) What would happen if you add Ammonia to prevent freezing in winter? Does ammonia aid/reduce HHO production?
Nice demonstration. So it seems that the ultrasonic device does help alot. My question will be for the pump. Is it use to cool down the Cell or simply to create a flow? Thanks in advance.
One mol of HHO contains 2 mols of H2 and 1 mol of O2. The useful energy contained in HHO equals 2/3 of the Lower Heating Value (Wiki-->"LHV") of pure H2, which is 2.97 Wh/lt (1 Watt-hour = 3.6 KJoul). So LHV(HHO) = 1.98 Wh/lt. You got 112,5 lt/hour, so 222,75 Wh of useful energy in 1 hour. You´ve spent for that 347,48 Wh. Efficiency = 0,64.
3) To get the most surface area of your metal into the water, wouldn't a grid be better than a plate or even a SS mesh or SS cloth?! This along with a water pump or ultrasonic or Cascade to reduce bubbles getting in the way of your plates? 4) I have seen experiments from 6 volts up to 40,000 volts. Doesn't seem to matter nearly as much as the Pulse Frequency.
Can you use a capacitance meter to quickly figure out a frequency to pulse the cell at? Has anyone tried to use a variable inductor in parallel with the cell to get things 'pinging' and cut power way back, similar to how a tesla coil works? Any coilers out there messed with an HHO cell?
It is at higher pump speeds the better the mmw i get. The old windshield pump was more aggressive and the water velocity was higher. I can't quantify it because the pump burned up.
hydrogen and oxygen both are produced. the cuboid containing water is sealed completely. the pump is to forcefully suck all the produced gas. That's it. Other wise it will take more time for the bottle to raise up to show actual volume of gas.
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I have been watching you for a while now and I must say I AM IMPRESSED! Thanks for sharing this with us.
Todd.
Thats AWESOME!! Nice rig. Thank you AGA.
Greetings, I'm a newbee but I just wanted to say that I am so impressed with the results that you and SmartScareCrow are getting that I have started building a 'Closed Cell' as well. Thanks and keep the videos comming.. I need all the help I can get... BTW, I actually have had a bit of success with my first prototype (not closed cell) so I am anxious to do better... I believe the Closed Cell design will do the trick...
I have read and seen a lot in the last month. From TH-cam and -OU-. I have half-baked ideas, but perhaps you can help: 1) Can you use Cascade (dishwasher detergent) as an additive to modify the surface tension of water as effectively as ultrasonics? 2) What would happen if you add Ammonia to prevent freezing in winter? Does ammonia aid/reduce HHO production?
Nice demonstration. So it seems that the ultrasonic device does help alot. My question will be for the pump. Is it use to cool down the Cell or simply to create a flow? Thanks in advance.
Very nice! Could you share with us the forum that you mentioned?
Thanks
Lee
There is no doubt you have to be careful.
so far you have been the only person I have seen admit that amperage is the cause of heat within a cell.
Interested in the ultrasonic device you are using and where to get one. Please let us all know...
One mol of HHO contains 2 mols of H2 and 1 mol of O2.
The useful energy contained in HHO equals 2/3 of the Lower Heating Value (Wiki-->"LHV") of pure H2, which is 2.97 Wh/lt (1 Watt-hour = 3.6 KJoul). So LHV(HHO) = 1.98 Wh/lt.
You got 112,5 lt/hour, so 222,75 Wh of useful energy in 1 hour. You´ve spent for that 347,48 Wh. Efficiency = 0,64.
3) To get the most surface area of your metal into the water, wouldn't a grid be better than a plate or even a SS mesh or SS cloth?! This along with a water pump or ultrasonic or Cascade to reduce bubbles getting in the way of your plates? 4) I have seen experiments from 6 volts up to 40,000 volts. Doesn't seem to matter nearly as much as the Pulse Frequency.
Can you use a capacitance meter to quickly figure out a frequency to pulse the cell at? Has anyone tried to use a variable inductor in parallel with the cell to get things 'pinging' and cut power way back, similar to how a tesla coil works? Any coilers out there messed with an HHO cell?
is your pump giving you any better production and/or efficiency ???
It is at higher pump speeds the better the mmw i get. The old windshield pump was more aggressive and the water velocity was higher. I can't quantify it because the pump burned up.
why you need water pump? Its produce's more hydrogen like that?
hydrogen and oxygen both are produced. the cuboid containing water is sealed completely. the pump is to forcefully suck all the produced gas. That's it. Other wise it will take more time for the bottle to raise up to show actual volume of gas.
are you still using 3tsp lye NaOH as your electrolyte in this video?
Building for Tomorrow.
You Otta see what 36 plates can do!!!
are you using ss plate in your closed cell?
yes
Yes 4X10 +NNN-
Rename your title. It isn't watts/ml, but how about Joules/mL? You have power per unit gas... it should be energy per unit gas.