Brownian gas refers to the electrolysis of a 2:1 ratio of hydrogen and oxygen mixed combustible gas using alkaline aqueous solution as raw material through a Brownian generator.
1. Definition
Browns Gas (English name: Browns Gas) was first proposed by Australian scientist Professor Yull Brown. Its definition is "strictly according to the molecular formula of water (H2O) The molar equivalent ratio of hydrogen and oxygen is an active hydrogen and oxygen mixed gas produced by electrolysis with special equipment.
2. The role of Brown gas (hydrogen and oxygen gas)
1. Rich resources.
The raw material consumed by the Brown gas generator is water, and water is the main resource of the earth. More than 70% of the earth's surface is covered by water. Even on land, there are abundant surface water and groundwater. There is no known fossil energy in the world that is more abundant and easier to obtain than water
2. Clean, environmentally friendly and renewable
The production process of Brown gas only consumes water and electricity. , 1 liter of water can produce 1860 liters of standard cubic meters of Brownian gas, and consumes about 6KwH of electricity. Brownian gas is colorless, odorless, and non-toxic. The only product after combustion is water, and no toxic or harmful substances such as CO, CO2, and NOX are produced. There is no greenhouse gas effect, so it is called "water fuel".
3. Safe and reliable.
Brown's gas is produced by electrolyzing water and can be used immediately. There is no need for large amounts of storage and long-distance transportation, and Brown's gas is odorless and non-toxic, and there will never be gas poisoning accidents caused by other gases. Since it is relatively denser than air, it will not accumulate even if it leaks, but will rise vertically into the air. Medium and diffuse, it will not harm the health of the operator.
4. Temperature change characteristics
When Brownian gas burns, the flame temperature has different combustion temperatures depending on the material of the heated object. , we call it "variable temperature characteristics". Foreign literature reports that the flame temperature of Brownian gas is between 125°C and 6000°C.
5. Implosion characteristics
Brownian gas. It is a hydrogen-oxygen mixed gas that strictly follows the molar equivalent ratio of hydrogen and oxygen in the water molecule structure. It has implosion characteristics that cannot be achieved by any other gas. When combustion or explosion occurs, Brownian gas forms a vacuum and negative pressure at a volume ratio of 1:1860. Pressure. Through experiments, the characteristic curves of Brownian gas and other fuels during explosion are shown in the figure below:
6. Catalytic properties
The experiments of Russian scientist Dudeleev showed that , dry CO reacts slowly with oxygen. When the gas contains 20ppm hydrogen, an accelerated multi-phase reaction occurs.
The combustion of hydrogen and oxygen in Brownian gas is a typical branch chain reaction process; When a molecule of water is formed, two new active substances are obtained
3. Characteristics
1. Temperature-changing characteristics
When Brownian gas burns, the flame The temperature varies depending on the material of the heated object, which we call "variable temperature characteristics". Foreign literature reports that the flame temperature of Brownian gas is between 125℃ and 6000℃.
2. , Implosion characteristics
Brown gas is a hydrogen-oxygen mixed gas that strictly follows the molar equivalent ratio of hydrogen and oxygen in the water molecular structure. It has implosion characteristics that cannot be achieved by any other gas. When combustion or explosion occurs, , Brownian gas forms vacuum and negative pressure at a volume ratio of 1:1860.
3. Catalytic properties
Russian scientist Dudeleev’s experiments showed that dry CO reacts slowly with oxygen. When the gas contains 20ppm of hydrogen, an accelerated reaction occurs. Polyphasic reaction. The combustion of hydrogen and oxygen in Brownian gas is a typical branch chain reaction process; when a molecule of water is formed, two new active substances are obtained.
IV. Application fields
1. Automobile combustion and fuel saving
Because the combustion heat energy of hydrogen in Brownian gas is much higher than that of gasoline, the energy is the same. 2.8 times the mass of gasoline; the ignition energy of hydrogen is only one-tenth of gasoline, and it is easier to ignite than gasoline. The ignition propagation speed is more than 6 times that of gasoline. Its flameout gap is 0.06s, which is only one-third of gasoline's 0.18s. One, so Brownian gas can greatly increase the propagation speed of flames.
If you want to improve the efficiency of fuel combustion, the most direct way is to use oxygen-enriched combustion. However, carrying oxygen for combustion in the car has the disadvantages of increasing weight, taking up space, and requiring frequent replenishment. Therefore, it is produced by Brown generator Using Brownian gas to support combustion can achieve the purpose of improving vehicle fuel combustion efficiency, saving fuel and reducing emissions [1]?
2. Car engine carbon removal
The car hydrogen and oxygen carbon removal machine adopts Brown's principle to extract hydrogen and oxygen atoms from the water through electrolysis to form a hydrogen-oxygen mixed air flow, and then inhales the air through the engine The manifold is input into the engine combustion chamber. After the Brownian gas fills the engine combustion chamber, it is ignited and ignited. The principle of hydrogen-oxygen catalysis is used (active atoms such as O, H and OH can be produced during high-temperature combustion. On the one hand, it can promote the medium and long-term growth of gasoline. The high-temperature cracking of hydrocarbon chains speeds up the oxidation reaction), the principle of oxygen-rich combustion (impurities such as waxes and gums in gasoline are also composed of long or ultra-long hydrocarbon chains, O, H and OH Brown gas characteristics such as active atoms such as can also accelerate its cracking and ultimately remove carbon deposits), water-hydrogen cycle principle and other Brownian gas characteristics can comprehensively and thoroughly remove engine carbon deposits and restore vehicle power without causing any damage to the engine, avoiding the traditional chemical The lack of carbon removal agents has gradually been accepted by the public and has become the mainstream method of car engine carbon removal and maintenance.
5. Application advantages
1. Rich resources
The raw material consumed by the Brown gas generator is water, and water is the main resource of the earth. More than 70% is covered by water, and even on land, there is abundant surface water and groundwater. No known fossil energy source on Earth is more abundant and more accessible than water.
Clean, environmentally friendly and renewable
The production process of Brownian gas only consumes water and electricity. 1 liter of water can produce 1860 liters of standard cubic meters of Brownian gas and consumes about 6KwH of electricity. Brown's gas is colorless, odorless, and non-toxic. The only product after combustion is water. It does not produce any toxic or harmful substances such as CO, CO2, NOX, or generates greenhouse gas effects. It is called "water fuel".
2. Safe and reliable.
Brownian gas is produced by electrolyzing water and is ready for use. It operates under normal pressure and does not require large amounts of storage or long-distance transportation. It is very safe. Brown's gas is odorless and non-toxic, and there will never be gas poisoning accidents caused by other gases. Since it is less dense than air, it will not accumulate even if it leaks, but will rise vertically into the air and spread, which will not endanger the health of operators.
6. Founder
Professor Yul Brown (1922~1998) was a Bulgarian who graduated from mechanical and electrical engineering. After graduating from university, he went to Moscow and received a physics degree from Moscow University. degree. In 1958, Professor Brown went to Australia as an electrical engineer and began his research career. He firmly believes that Jules Verne's "fire in water" theory is achievable. After years of research, Professor Brown discovered that if hydrogen and oxygen are mixed in a specific ratio, it will not only burn safely, but the entire combustion process will be pollution-free. In early 1970, he invented a patented method that uses water electrolysis to produce an explosion-proof hydrogen-oxygen mixed gas. The hydrogen and oxygen atoms in the gas are accurately matched at a ratio of 2:1. Professor Brown discovered that this mixture of hydrogen and oxygen can be safely mixed if the strict ratio is adhered to (the mixing ratio can be adjusted by plus or minus 5%), and the result is what is known today as Brown's gas. Professor Brown came to China in 1990 and worked for 3 years. He went to the 52 Research Institute many times to teach Brownian gas technology, which aroused the great attention of the leaders and the majority of scientific and technological personnel. The scientific and technological personnel paid great attention to Professor Brown’s scientific and precise electrolysis techniques. After conducting research on the structural design, we finally successfully developed a safe and environmentally friendly Brownian gas and developed the first generation Brownian gas generator.