HHO Cell Configurator
But, before I get into the nitty gritty, I should warn you; HHO companies make sales by boasting about Liter Per Minute (LPM). They measure HHO with any kind of flow meter that will indicate higher LPM; it makes their product look better. To my knowledge, no one, using a flow meter, is measuring it accurate. Not even those that use Alicat Scientific Flow Meters, or Dwyer Hydroxy Flow Meters. I take that back, Greenfuel H20 is using an Alicat correctly; he even compares it with the water bottle test. It requires drying the gas before it enters the meter. With this in mind, I came up with a method of predicting the HHO output of a cell — before you start the task of building it. The method is based on operating voltage, amperage used, number of plates, size of plates, and the number of cell stacks. My method is proven to be accurate when compared to measurements taken by timing how long it takes to fill a 1 liter bottle, and by greenfuelh2o’s Alicat measurements. It works with Flat Plates and with Tubes. The plate arrangement can be Unipolar, Bipolar, or a combination of both. My Configurator is available to download Free, but first I think it would help you to know more about how it works.
I searched the web extensively looking for formulas that I could understand; formulas I could work with; there’s some complicated stuff out there. What I found, what I used, and the way I used it came about by trial and error; lots of it. I did not get it right, until I got the Cell Theory right. It was a learning process that I am about to share with you; for Free.
The Configurator will help you understand what variables affect HHO gas production. You will be able to size an efficient cell capable of producing the LPM you desire, and know ahead of time the amount of amperage needed to accomplish it. That means no more guessing. That will save you both time and money; and it is Free. My Serbian friend, Milos Panic was kind enough to contribute to the cause by converting my Microsoft Excel Configurator into an Executable Windows Program.
Calculations are made in both inches and centimeters. Calculations can include actual dimensions of the assembled cell (if you want to pursue it); including the new Separation Cell design. Did I mention it is all Free?
The following bullets are key points of my research and reasoning:
- Faraday told us that 1.24 volts is the minimum voltage for electrolysis efficiency…. that is, with the least amount of energy lost to heat. That is, 1.24 volts of electrical pressure between 2 plates that make a water compartment. Higher voltage results in increased heat energy. Yule Brown used 1.48 volts and Bob Boyce uses 2.0 to 3.0 volts. Through trial and error, I have concluded that Faraday’s 1.24 volts and Brown’s 1.48 volts are impractical when using straight DC as a power source; it is because of the amount of electrolyte needed to lower the resistance of the water. 1.24 volts is very little electrical pressure; it requires a lot of electrolyte. That is a big factor. Voltage is the prime controller of heat and anything above 1.24 volts causes more of it. So if you need 24 hour operating time, 7 days a week, you had best configure for lower voltage across the plates. But wait; consider the following:I discovered that the electrolyte determines the minimum voltage needed for electrolysis to take place. Faraday’s 1.24 volt minimum was based on the use of Battery Acid. I discovered that NaOH minimum voltage is 1.69, and KOH minimum voltage is 1.67. As it turns out, the electrolyte solution is affected by the voltage drop. Now I know why my 8, 9, 10, and 11 plate series cells would not produce much amperage — when using a 12 to 14 volt DC power source.
- Continuing on, we know that the cell plate voltage is obtained by dividing the Operating Voltage” supply by the number of cells in Series with it (isolated water compartments located between positive and negative electrodes). A 12 volt power source needs 10 water compartments in order to drop the voltage to 1.2 volts per cell. That cell configuration looks like this + n n n n n n n n n -. That is an 11 plate series cell. HHO is produced in each of the 12 water compartment at the rate of 10.44 MLPM for each ampere; says the late great Michael Faraday.
- Maximum Current Density: This is a biggie. It is being miscalculated by everyone. Any electron flow produces heat; any. Our goal is to minimize the heat. We know that each square inch of a plate surface, on one side of a plate, efficiently passes 0.54 amps of electrical current (Current Density). For HHO purposes, we need to base our calculation on the surface area between the gasket; inside the gasket area. this is where amperage is going to flow from in order to cross the water. This is the area electron flow is going to be condensed into using. This is where the plate is going to get the hottest. Higher amperage, per square inch, increases HHO production, but also causes even more heat; the more amperage, the more heat (along with more HHO). There needs to be enough surface area inside the gasket area to handle the amperage you intend on using. This is a major factor in cell efficiency that is being overlooked or exaggerated. This is what plate size is all about. Plate size does not increase HHO production, it establishes a maximum efficient Current Density (maximum operating amperage). If enough surface area is not available to handle the amperage passing across a plate, electron flow will pile up at the nearest water crossing…and heat that area. Electrons need enough room to move freely across the plate, without getting piled up; you will find excess heat where they pile up. Examples: Have you ever had a wire get too hot because its thickness was too small? Have you ever noticed that a loose battery terminal gets hot?(Physics defines Current Density as: The number of subatomic particles per unit of time, crossing a unit area, in a designated plane, perpendicular to the direction of movement of the particles). I interpret that as “The number of Electrons, crossing an electrode surface, perpendicular to the direction of travel”.
- We also know that the amount of HHO gas produced is in direct proportion to the amount of power we use; Volts x Amps = Watts of Power. Thus, more surface area will increase the current density maximum (or optimal) operating amperage we are wanting to use. Surface area can be increased by increasing the size of the plates, but it does not increase gas production; number of plates accomplishes that without increasing amperage in a series arrangements of plates.
- We also know that Hydrogen and Oxygen are produced on opposing plates. This is a biggie. Faraday tells us Hydrogen is equal to Amps x 0.000246 CFM, and Oxygen is equal to Amps x 0.0001229 CFM. That gives us an HHO total of 0.0003689 CFM per Water Cell area. It needs to be converted to Liters Per Minute, but that figure we can work with.
- That is my theory of understanding efficient electrolysis of water.
So now we can use this information to configure an efficient Cell. First, we need to measure the output voltage of our power source; in most cases that would be our Battery or Alternator. We needed this in order to determine the voltage between adjacent plates (cell water area). Keep in mind, our vehicles have a 12 volt system, but the Alternator produces higher voltages. It is that voltage that we must account for.
- If our vehicle’s alternator is supplying 13.5 volts, under a load, and we want to try and achieve 2 volts per cell, then we need to divide 13.5 volts by 2 volts in order to get the number of cells needed for electrolysis efficiency. If we figure 7, that will be close, 1.93 volts, 6 cells would be 2.25 volts per cell. In any case, either figure is close enough.
- Now add 1 to the number of cells and that is how many Plates we will need to build into the Hydrogen Generator Cell Stack.
To make this easier, use my Configurator. I made it possible for you to change the numbers; good for comparison, and good for calculating your old cells. I can not tell you that the figures are perfect, but they are close.
If your interest is just in the Configurator, you can skip the next few paragraphs. But if you are new to this technology, it may benefit you to read on.
The most efficient cell configuration has one Positive plate and one Negative plate, with Neutral plates between them; that is a Series Configuration. The same electrical current passes from the negative plate (-) to each neutral plate on its way to the positive plate. It looks something like this ( – n n n n n n n n + ). The neutral plates cause voltage drops between plates. It is that voltage drop that we need to create…. for efficiency. Simply counting all of the water spaces, regardless of the number of positive and negative plates, will not cut it if there are multiple positive and or negatives. If the voltage drop in each cell (between positive and negative), does not add up to the value of the operating supply voltage, then you are not doing correct measuring.
Series Parallel cells have multiple Series cell stacks in Parallel; sharing positives and or negatives ( – n n n + n n n – ). A Series Parallel Cell is actually 2 Series cells ( – n n n +) and (+ n n n – ). They can not be calculated as 1 cell. The reason is, they are 2 cells (stacks). The cell voltage is cut in half, every time a neutral is added between + and -. No neutrals means full battery voltage or alternator voltage. One neutral cuts that in half. Two neutrals cuts it in half again; etc. etc. etc. My Configurator calculates these as Stacks.
Parallel: If your cell has alternating positive and negative plates, you will never achieve operating efficiency
(+ – + – + – + – ). You will always have operating voltage supplied to each cell. That is about as Brute as you can get. It will make a lot of gas and it will make a lot of heat…. unless you add enough stacks to lower the amp flow….. through each stack (a stack is a set of + & – plates. Adding more sets will prolong the inevitable heat buildup. In addition, the amperage will eat up the positive plates faster than any other configuration. Have you ever seen a Wire cell? Hello ! They make good water heaters. You pour the amperage to them in order to get them to make gas. It does not take long for them to heat up and deteriorate. What Wire cells do best is create water vapor. It is that water vapor that is providing most of the fuel efficiency increase results. It has to be. Wire cells just do not make enough HHO to account for the benefit they provide. (ok Ozie, your secret is out).
So, now we have come full circle. As experimenters, we started out with Brute Force alternating positive and negative plates. Then we figured out that a series of Neutral plates lowered the heat and produced more gas. Then we figured out how to combine two series cells into one bigger cell, and how to maximize the efficiency and produce more gas with less heat. All along the way, the ratio of gas increased while the water vapor decreased. We did this because the experts warned us to keep the water vapor out of the engine. It is bad for the engine. It will rust the engine. It will rust the injectors. Blah Blah Blah. Hog wash. Your engine was designed to handle the vapor. Hydrocarbon fuels are made up of Hydrogen and Carbon (mostly). When Hydrogen mixes with Oxygen in the combustion chamber ….. the by product is Water. Did you catch that? Burning Gasoline and Diesel produces a by-product of water – in the combustion chambers.
In closing, I offer one suggestion. If you want to make HHO and or water vapor, start with a safe container; one that can take the Heat.
Have fun with the Configurator. If you need help with it, click on HELP at the bottom of this page. If you have comments or suggestion, please let me know by way of my Help page.
NOTE: For the software help & instructions visit hhofree.com
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