Brown's Gas vs HHO

What is the Difference between Brown's Gas – and Hydrogen?

     HHO is also commonly known as Brown's Gas and comprises (by volume) two parts Hydrogen gas and one part Oxygen gas. It has the same Oxygen and Hydrogen elements and in the same proportions as in water - or in water vapor - therefore Brown's gas is sometimes mistaken to be "water vapor" or something similar. What William Rhodes and Professor Yull Brown discovered was, that HHO is NOT water vapor. It's very different.

     They discovered that water has more than the usual three states, namely solid (which we call "ice"), liquid (we call it "water") and gas (we call it "water vapor"). It has a forth state called Brown's Gas (HHO).

     Brown's Gas is NOT Oxygen plus Hydrogen, like those gases that you might get from a factory supply.

     Ordinary Hydrogen and Oxygen gas, when purchased commercially, or when produced by Electrolyzers that separate Hydrogen from Oxygen and LEAVE THEM SEPARATED (not Water4Gas), these gas mixture comes in the form of O2 and H2. That is, the molecules of both gases form molecules of TWO ATOMS EACH. What we call "diatomic" structure, unlike "mono-atomic" or monatomic in which we have single, NONPAIRED atoms. This is the STABLE STATE for these gases. When individual atoms are separate as molecules (charged ions) of one atom each, they are not stable - they want to pair up.

     Now let's try to burn these atom pairs, O2 and H2. It IS a combustible gas mixture, however the problem is that before they can react together (the burning process) to make H2O, we must first break apart each atom pair into separate H and O atoms. Now here's the real problem: the energy we need to do break them apart makes the process non efficient. In other words it can be done, but it does not pay for itself.

     What makes Brown's gas unique - and highly valuable for our energy needs - is the fact that the Hydrogen and Oxygen have not formed into O2 and H2 molecules. They are in their monatomic state - a single atom per molecule! In this state, which is an UNSTABLE STATE, we will get 3.8 times more energy when we burn the Hydrogen with the Oxygen. The reasons:

     a) We have the monatomic state which is perfect for the burning process, and

     b) We have the perfect balance of ingredients - just the right amount of Oxygen necessary for the Hydrogen to fully and effectively burn.

     It's so perfect that it feels like winning the lottery!

     Below is further documentation discussing Brown's Gas gathered from International Patent App. WO 2005/049051 A1 and U.S. Patent Application US2007/0104797 A1, both referring back to the Brown's Gas books published by Eagle Research

Brown's Gas Theory

     Brown's gas is a mixed gas of hydrogen and oxygen (2:1, by volume) created by electrolysis of water. It is thought that Brown's gas also contains considerable water vapor. Generally, electrolysis of water produces a hydrogen gas at cathode and an oxygen gas at anode. These gases are captured at the same time without being separated, and the captured mixed gas is generally known as "Brown's gas."

     Brown's gas has several characteristic properties, unlike general gases. The most noticeable property of Brown's gas is implosion upon ignition. For this reason, Brown's gas is known to have ultra- high temperature to an extent that can sublimate (change directly from solid to vapor without first melting) tungsten – a metal that has the highest melting point of all metals!

     According to the classic theory (the first theory), Brown's gas is a simple mixed gas of hydrogen and oxygen generated by electrolysis of water, which cannot explain the special characteristics of Brown's gas. Accordingly, new theories about the entity of Brown's gas have been recently introduced.

     Experimental results acquired to date show that a mixture of oxygen and hydrogen generated by a Brown's gas generator has remarkably larger reactivity than an equal amount of another mixture of oxygen and hydrogen.

     The second theory about Brown's gas is that Brown's gas is a mixture of diatomic (each molecule made up of two atoms) hydrogen/oxygen and monatomic (element consisting of a single atom) hydrogen/oxygen.

     The recently published third theory is that electrolysis of water produces third gas bubbles between a cathode and an anode, in addition to a molecular hydrogen gas at the cathode and a molecular oxygen gas at the anode. According to this third theory, it is thought that Brown's gas is a special “water gas” in which the hydrogen gas, the oxygen gas, and the third gas bubbles are mixed, i.e., Brown's gas is not steam but "electrically expanded water."

     The characteristics of Brown's gas disclosed to date are as follows:

     Brown's gas contains high energy, and in particular, generates cold flame with tremendous energy potential upon ignition. Brown's gas is a special and highly efficient medium that transmits electrical energy to the atomic structure of a material and exhibits special effects that are often unobtainable by any other means. Brown's gas is essentially easy to handle, is odorless, and is harmless to the human body even when inhaled.

     Further, Brown's gas is lighter than air, diffuses rapidly in air, and has a high initial flammability limit, which makes it safer than other combustible gases. Due to these characteristics, Brown's gas has received interest as a next generation fuel, in particular, as a clean fuel that produces no pollutants, unlike a waste fuel producing pollutants, and thus, research into utility of Brown's gas as a fuel has been actively conducted.

     Source: International Patent App. WO 2005/049051 A1 and U.S. Patent Application US2007/0104797 A1, both referring back to the Brown's Gas books published by Eagle Research

     You can visit this link to see practical applications of HHO as innovative and powerful welding equipment:

www.water4gas.com/1/watertorch.htm