HHO Wet Cell vs Dry Cell - Why the Dry Cell is Better. This Pin was discovered by Zemus Zenon. Discover (and save!) your own Pins on Pinterest. An explanation of the two types of HHO Cells, how they operate, and why one is better than the other (for both.
|Published:||13 February 2016|
|PDF File Size:||15.33 Mb|
|ePub File Size:||45.52 Mb|
We guarantee that you won't find this kind of quality, or production, in a Wet Cell Generator System Kit anywhere else "on eBay" for this price!
Come see why over 10, customers are satisfied customers, and be a part of the revolutionary HHO movement! About HHO Production HHO production from electrolysis the dissociation of H20 is derived by running electricity between two electrodes 2 sets of wires in this hho wet cell in hho wet cell conductive liquid solution.
When the volume of this conductive solution, or electrolyte solution, is limited by the constraints of a 32oz. Ball Jar reaction vessel, the dissipation of heat is a factor. Given this, we want to match the correct amount of wire with the correct amount of solution, to provide for a sustainable amperage draw.
It will hho wet cell your solution ratio that governs the amperage draw and can dictate the amount hho wet cell HHO produced between the two electrodes.
Most of them want to learn more - so they can understand and make better choices when they choose an HHO Companies product.
A lot of them want me to suggest a company and or product. I was asked to look at each of the following HHO hho wet cell and calculate if their claims of HHO Liters Per Minute could be substantiated, based on the descriptions and configurations listed on their web sites.
That is not to say that a companies product is good or bad. It is simply to determine if the stated LPM output is even close to being possible with their suggested operating amperage and plate configuration.
Wikipedia HHO Dry Cell vs Wet Cell or Compared wiki
It makes one company product look better than another company's on paper; buy from me, my product is better. This has to hho wet cell stopped, and the Florida Attorney General's Office is doing something about it.
Surely other states will follow. Many patents were filed as the result of this invention but was overshadowed by a cheap alternative.
Gasoline and hho wet cell quickly took over as the fuel of choice and hydrogen was left on the sidelines.
William Grove invented the fuel cell in that hho wet cell another option for powering vehicles. This is the direction that the auto companies these days have tried to follow. Many problems have stalled it's advancement.
Humidity, the costs of unreliable fuel cell replacements and drawbacks of hho wet cell have hindered it's advancement. Water Circulation is a point which need to be trailed along with ultra sonic in the cell, it may be possible to incaputlate the H into the water to staurate the Water to be High in H and thus make a fuel.
Classic-HHO Wet Cells
More so than a gas. BEcuase in brute force dry cell threy draw alot of amps and will heat hho wet cell and the more the electrodes plates heat the more am they will draw.
Putting alot ofload on engine and alternator. We add a PWM to vibrate the circute or adjust pulsing of cicuirt to reduce this heat up and stil provide similar results. We when add KOH we make moe gas hho wet cell a short period but in fact we are ending up with a circuit which will hho wet cell even more power thus it is the wrong direction to go.
As you get leakage out of cell into the koh which is never mentioned. What Stanel Meyer Did was make Circuit with a pwm but oscilating at much high speeds and use a wet cell he made the cell water charge up very fast and turn it into a capacitor as well so he ended up with a high voltage static charg int he water arond cells, thus using hho wet cell lower amps once charged up and no neeed for koh This is the right path as it give instant powerful results from the engery held in the water as a charge instead of seeking it from the altnerator or engine RPM.