I see you guys talking about it but I dont know how.
I see you guys talking about it but I dont know how.
You control the amperage by diluting the eletrolyte solution. For instance (and this is only an example), instead of using 1 tsp of KOH per gallon of distilled water only use 1/4 tsp per gallon. Distilled water alone provides almost no current flow. The eletrolyte is what allows the current to flow from conductor to conductor (plate to plate). I hope this explanation helps.
Only two ways to control amperage that I know of, either lower the conductivity of your electrolyte or widen the gap between your plates.
Lots of different ways to control current draw:
Put more cells in series or a lower voltage across each cell (really the same thing).
PWM (decreases the time the current travels through the circuit with the same voltage and amperage)
Lower the Amperage by either of the methods listed
Lower the voltage by other means (voltage converters etc)
Probably others but these are what is being used by most folks.
John
Will a PWM derease amps with out effecting HHO production?
Would you say amps and HHO are proportional to each other?
I had to decrease amps because of heat issues and as a result have less HHO
find potassium hydroxide. I heard you can find it lye but I want it in pure form.
I am planning to buy this PWM and Install; check this out:
http://www.bakatronics.com/shop/item.aspx?itemid=581
http://www.bobhobby.com/store/dcmoto...ere_LX066.html
I bought a bottle of potassium and sodium hydroxide mix at home depot its liquid form drain opener. Black bottle called liquid power. Comes in a ziplock bag for protection. $5
If you seperate each cell completely so the dielectric isn't shared, you will reduce the current draw. You really wanted 7-8 seperate chambers of electrolyte unless you jump voltage from 12 to 24 or 36 or whatever your heart desires. The general rule of thumb is to run 1.4 - 1.6v per cell on average.
I also build heatseaks onto the outside of generators to keep them cool. Heat creates resistance which will create the demand for more current.
So neutrals are bogus? what do you use to drop voltage?
I gota go, hope to talk to you more later. Thanks for your insight
Not bogus, just a step in the wrong direction. First a foremost you need to seperate your dielectric. Otherwise you have runaway current and voltage.
Think about this. If you have current shoot across your dielectric from electrode 1 all the way over to electrode 12, what about all the "Cells in between?" There isn't true voltage drop as smack illustrates. They also aren't true cells. They are just conductors that sometimes make gases via electrolysis, but they aren't efficient and are a step in the wrong direction. I like true, seperate cells, that each have three electrodes, all powered. Then calculate your cell number based on your voltage level. 12V, 24V, 36V, 1.2kV? Aim for 1.4-1.6V per cell.
That's a much better approach than shoving a bunch of metal plates in one dielectric solution throwing current everywhere.