HHO Gas Generator | HHO Generator | Oxyhydrogen | Hyrdogen Fuel

Attention New Update:

To those who pre-signed, we want to let you know that we received your info and we are going to be sending something up to keep everyone up to date. We are seeking a sponsor to help with a formal study. We will then post all of our findings. We also want to compare the price of using electric batteries to power the HHO Gas Genenerator rather than using the alternator. It's just a thought but I wanted to put it out there. These are the two studies we will be looking to do. Particularly providing FORMAL studies of the major HHO Gas Generator manufacturers. So if you are a manufacturer, please submit your info and state MANUFACTURER or something so we know. If you are an Installer who is able to install an HHO Generator, please also signup and include your information. There are many people who are looking for installers that are certified mechanics.

We are getting a formal logo designed and putting together a new site. What is keeping us the busiest if finding the right sponsor. The traffic this site is getting is unreal and the hits keep doubling with repeat visitors climbing and climbing. We have no doubt that HHO Gas will play a key role in the auto industry and we applaud those of you who are keeping and open mind and doing your own homework.

Here is a very rough concept car that we envision on the road soon!

This image is of an oxyhydrogen torch. Notice the thin lateral dimensions, and the long distance of the flame. Also notice that the flame begins a short distance from the torch tip; if the distance is great enough the torch tip can remain relatively cool.^[1]

Oxyhydrogen is a mixture of hydrogen and oxygen gases, typically in a 2:1 atomic ratio; the same proportion as water.^[2] At normal temperature and pressure, oxyhydrogen can burn when it is between about 4% and 94% hydrogen by volume,^[3] with a flame temperature around 2000 �C.^[4]

Oxyhydrogen will combust (turning into water vapor and releasing energy which sustains the reaction) when brought to its autoignition temperature. For a stoichiometric mixture at normal atmospheric pressure, this is about 570 �C (1065 �F).^[3] The minimum energy required to ignite such a mixture with a spark is about 0.02 millijoules.^[3]

The quantity of heat evolved, according to Julius Thomsen, is 34,116 calories for each gram of hydrogen burned. This heat-disturbance is quite independent of the mode in which the process is conducted; but the temperature of the flame is dependent on the circumstances under which the process takes place. It obviously attains its maximum in the case of the firing of pure "oxyhydrogen" gas (a mixture of hydrogen with exactly half its volume of oxygen, the quantity it combines with in becoming water, German Knall-gas). It becomes less when the "oxyhydrogen" is mixed with excess of one or the other of the two reacting gases, or an inert gas such as nitrogen, because in any such case the same amount of heat spreads over a larger quantity of matter.^[2]

Many forms of oxyhydrogen lamps have been invented, such as the limelight, which used an oxyhydrogen flame to heat a piece of lime to white hot incandescence.^[4] The explosiveness of the gas mixture made them all more or less dangerous at that time, and they have been replaced by modern electric lighting.

It was much used in platinum works, as platinum could be melted (at a temperature of 1768.3 �C) only in an oxyhydrogen flame, or an electric furnace (which is now used instead).