HHO Decarbonizer Carbon Cleaning Machine
HHO decarbonizer carbon cleaning Machine
380 ±10%,50/60Hz,three phases
Rated Capacity (KVA)
Working Gas Pressure (Mpa)
Relative Humidity (%)
Rated Gas Production (L/h)
Water Consumption (L/h)
Carbon cleaning for diesel and gasoline bus, truck,ship Engine
(3.0-20 liters),Time Set:20-40mins
The Insulation Level
Power Supply Protection Grade
Filtered water or deionized water or soft water
Enviroment Temperature (℃)
Outline Dimensions - L*W*H (mm)
Gross Weight (kg)
Ventilation Space Requirement (mm)
400 in each direction
Hydrogen and carbon removal of carbon to remove carbon fly it?
Hydrogen and oxygen carbon removal machines have become popular all over the world since 2010, and they have occupied the market of traditional chemical carbon removal agents with lightning speed. Hydrogen removal of carbon by carbon is not just for high-temperature combustion and carbon removal. Instead, it uses hydrogen and oxygen reactive atoms to help cleave the long hydrocarbon chain materials such as waxes and gums in carbon deposits. It is very easy to remove the carbon deposits by baking the wax on the wall.
First of all, we need to understand the principle of hydrogen and carbon removal. The hydrogen and carbon removal machine extracts hydrogen and oxygen atoms in the water through electrolysis to form a mixed flow of hydrogen and oxygen. It is input into the engine combustion chamber via the engine intake manifold until the Brown gas is full of engine combustion. After the room, ignition ignites, the use of hydrogen and oxygen catalytic principle (in the high temperature combustion process can produce O, H and OH and other active atoms, a
It can promote the high-temperature pyrolysis of medium and long hydrocarbon chains in gasoline, accelerate the speed of oxidation reaction, and the principle of oxygen-enriched combustion (petrol and other impurities in the gums are also caused by long hydrocarbon chains or long hydrocarbon chains. Composition, active atoms such as O, H and OH can also accelerate its cracking and finally remove carbon deposits).
The microscopic process of carbon deposition by hydrogen and oxygen gases is as follows:
1) Hydrogen gas is drawn into the engine during the intake of the engine.
a. The hydrogen gas is very light and quickly diffuses into the engine engine room.
b. Hydrogen also has a very good characteristic, that is, its adhesive ability, and it is always attached to the inner wall of the engine. These places are the most carbon-rich places.
c. Hydrogen also has the property of penetrating power. Since hydrogen has very few molecules, it can quickly penetrate into the surface of carbon deposits
2). Engine injection
3). Engine ignition
a. The first stage: oil, air, hydrogen attached to the carbon deposition surface, oxygen is lit, and carbon oxides (mainly carbon dioxide), nitrogen oxides, high-temperature water vapor, and hydroxide ion clusters are produced. b. The second stage: water vapor, hydroxide ion clusters and carbon deposits undergo high-temperature water gas reactions, carbon deposits with hydroxide ions attached are oxidized to carbon monoxide and further oxidized to carbon dioxide
4). Engine compression work
Carbon deposits are discharged by gas through the exhaust system