There is no such thing as a generator that will always be the best under all circumstances. However, the
two most important factors when comparing generators are their efficiency, in other words, how much gas
generated for a certain amount of power consumed, and also whether they overheat or not. Some boosters,
claim impressive amounts of liters per minute gas production, but they do not tell us at how many amps
were used and at what water temperature the measurement was taken. Knowing how many amps is
needed is important because it tells us both how efficient the cell is as well as whether the design is likely
to have overheating problems.
The less efficient a cell is, the more there is current leakage and as a result the more generation of waste
heat. (So for instance generating 3 lpm @ 35A is less energy efficient than generating 2 lpm @ 20A, and
one should not just look at the lpm!). Knowing at what water temperature the reading was taken will tell us if
the gas was a high quality gas or maybe contained a lot of water vapour. As a rule of thumb, a series cell
design is the most efficient design for straight forward brute force electrolysis. An open bath design will
never be able to be as efficient as the Aquareactor design.  The biggest problem with an open bath design
is that because of excessive current leakage, it usually overheats rapidly and typically gets to 90+ degrees
Celsius within +-2 hours. If an open bath design booster is not constructed from material that can handle
those temperatures, you have a problem (e.g. PVC plastic which is only good for 60 degrees C)

Excessive heat also means energy is lost unnecessary with resulting lower efficiency. So a simple but very
effective way to have a honest comparison between two generators, is to put them next to each other and let
them run at the same amps. To make an accurate efficiency comparison there should be no external water
cooling device or mechanism present (e.g. Heat sinks, cooling fans, radiators, siphons etc.). The generator
that has the highest water temperature after two hours will always be the least efficient while the generator
with the lowest water temperature will always be the more efficient design! It is actually the energy that is
wasted that heats up the water, and hotter water simply means more energy is wasted which could have
been used to generate more hydroxy. In this regard one must note that if a design needs some kind of
external water cooling device or mechanism, this might actually disguise the inherent inefficiency of the
design. If you measure the gas production of an open bath cell while it is running at >85 degrees Celsius, it
might look as if you are getting impressive gas production, but at those temperatures the gas contains a lot
of water vapour, thus it is a lower quality of gas. So, be very careful when comparing the "claimed" gas
production from various generators. Make sure that you know at what operating temperature the claimed
amount of gas was measured and make sure the claim can be verified! Another important measure of the
quality of the booster, is to look at the stainless steel being used.  Also the generator only uses plastics (e.
g. Nylon, polyprop) which are not capable of handling higher temperatures as PVC.  
Mostly, uses poly
carbonate cover for the Dry cell than not endure over 4~5 hours by heat breaking
.  How to protect from the
heat, leakage of current, leakage of water and gas is key technologies in Aquareactor.
 So the biggest
advantage of the Aquareactor is its efficiency, which is up to 1 liter of HHO Gas per minute at 10A (13.8
V), and up to 2 liters  of HHO Gas per minute at 20A, measured with a water temperature not exceeding
75~80 degrees Celsius. Even more important is the fact that it can run 8+ hours continuously without
overheating, free mounting position level with auto returned remain water from the water separator and
bubbler at key off time. Basic important point is the passenger car has approximately 10A  of excess
electrical power, if consuming over this by the generator than will become trouble in driving on the
road.  Do not compare with other cheap one products.
We are the only company to offer a complete product line that is comprised of high surface coated plates on
a pure titanium substrate. This our revolutionary titanium HHO dry cell plate with No hole design requires
fewer plates than a comparable stainless steel cell. These plates are unique in many ways. First, they create
zero corrosion. No rust entering your engine, No dirty water means no constant maintenance or product tear
down. Spend less time monitoring the device, and more time saving money at the pumps! The coating offers
a surface area that is over 20 times that of stainless steel. Less metal equates to a design that is smaller and
easier to install in the limited space available in modern engine compartments. Our unique dry cell
technology requires far less refilling than most other systems on the market. And size does matter,
especially when trying to install a unit in any late model vehicle.

What electrolyte should I use?
We recommend KOH. Do NOT use baking soda since it might damage the electrodes which may lead to
reduced gas production. Gas Output of the cell ranges from 1.2 - 3.0 liter per minute.  It is important to note
that output varies on electrolyte to water ratio, type of electrolyte, voltage and amperage.
Also, some of dry cell recommend Na2SO4(Sodium sulfate),  if you select than require more cooling
function for reducing heat from the plate and add some volume of Na2SO4 in daily for continuous producing
HHO gas. Also, Our test result has shown less HHO gas making with the bad gas than KOH, also required
unique plate stacking construction.

What kind of water should I use?
Distilled is recommended because tap water may cause sludge to build up and short the electrodes.
Should you decide to use tap water, you do so at your own risk and in such case we advise that you should
regularly open up and clean out the electrolyzer, at least once every 3 months. If your water contains too
much impurity, it may contaminate the electrodes which may lead to reduced gas production.
Distilled water was used to prevent contamination of the electrolyte which would result in reduced
performance and efficiency.
The Aquareactor has reached an operating temperature of between 60-80deg C, it consumes +-
15~75ml water for every 1 hour of operatio
n, so filling up with 1.0 liter, should last +- 13 hours of driving
time by calculation.
These figures are estimated to be ideal for the average car with engine capacity
ranging between 1000-4500cc. 15A does not place too much of a burden on the alternator of the car,
allowing maximum mileage gains.
Electrode spacing is another factor that influences the amount of electrolyte needed to allow a certain
amount of amps.
Also note that the amount of gas is NOT related to the amount of water left in the container (except when no
water is left and no current is flowing!).
The amount of hydroxy gas produced is determined by the AMPS (e.g. 1lpm@10A, 2lpm@20A), so you could
have peak gas production right until the last moment before your cell runs completely dry, where peak gas
production would be determined by the amps at that time. Whether you have 100ml of water left or 900ml of
water left makes does not determine the amount of gas although the temperature of the water determines
the resistance of the electrolyte and thus also influences the amps that are flowing.
So with less water in the unit, the temperature is likely to be higher resulting in more amps flowing than with
more water! For example, let’s say you have only 100ml of water left in your booster with a given amount of
lye, and lets say the water temperature is 70 degrees Celsius. For these parameters you might have 20A
current flow resulting in 2liters per minute gas production.
Should we now add 900ml of ice cold water to reduce the water temperature to 40 degrees Celsius, you
might find that you amps suddenly drop to 15A and thus only 1.5 liters per minute gas production. So in this
case adding the water actually reduced the amount of gas produced. This is an extreme example but I use it
to illustrate to you that the amount of water left is not the issue, rather the concentration of lye in the water
(making the water more conductive) and the temperature of the water itself.


What is best Plate Material for HHO Generator ?

The material that endures longer is better.
1) Platinum would be the best to use ,but the cost would be to great.  Aquareactor has supply the
Platinum coated plates  Edition by order.

2) We offer a complete product line that is comprised of High Surface coated plates on a pure titanium
substrate. This revolutionary plate design allows for a unit that is comprised of much fewer plates as
needed in a comparable stainless steel cell. These plates are unique in many ways. First off, they create
zero corrosion. No rust entering your engine, EVER! No dirty water means no constant maintenance or
product tear down. Less time monitoring the device, and more time saving money at the pumps! The
coating offers a surface area that is over 20x that of stainless steel. Less metal equates to a design that is
smaller and easier to install in the limited space available in current engine compartments. Our design
requires refilling far, far less than the majority of other system available.
Please see
KM-series and KH-series


3) Stainless steel would be the next, and the most common, 316L is endures much longer than 304,
Aquareactor use 316L stainless steel plates in standard. Please see
KW-series  and Health Effects of
Hexavalent Chromium


4) Graphite would work great and endures material for the HHO generator,  Aquareactor has supply
Graphite Edition.

Electroplating different from electrolysis in that the metal deposited from electrolysis plates out on the
surface of another metal. The electrolyte contains the plating metal in the form of dissolved ions and the
anode usually is made of the plating metal. The object to be plated is the cathode.  In this reason, will
become a brown colored water (electrolyte) and consuming plates.

316L, Titanium plates are >0.125mm/year corrosion speed at NaOH 20%, 100 degree in centigrade.
It will vary,  in Vehicle Condition & Maintenance, Voltage Variations and Electrolyte variations. As you know,
mostly corrosion from the plate of edge and hole. In this reason, our plates are design with No hole on KM,
KH series.


Leading trend of HHO Generator's technology for best efficiency and reliable.

















* Blue letters are current trend and best.

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Type of Cell
Wet Cell
Dry Cell
Canister & Cover
Glass Jar, Stainless steel
PVC Pipe
Aluminium, Customized
PC
Type of Electrode
Coil wire, Pipe, Plate
Plate
Electrode materials
SS304, SS316L,
Titanium, Graphite
SS316L, Titanium,
MMO-titanium
Plate design
With holes
With hole, Without hole
Changed water color
SS304, SS316L : Brown
Graphite: Black
SS316L : Brown
MMO-titanium : Clear
Life time
SS304 < SS316L < Titanium < MMO-titanium
Make Gas
HHO
HHO or H2, O2
Amperages
Wet Cell         >       Dry Cell
Reference
KW Series
KM Series, KH Series