grade of fuel bren`s
топливо марки bren`s
P U R P O S E
Katalgen is a compound name from two ancient Greek words "katalysis", with a derivative of it "catalyst" and "genos", meaning "genus" or "origin".
The Katalgen® additive is designed to improve the environmental and consumer properties of the fuel.
Katalgen is a compound name from two ancient Greek words "katalysis", with a derivative of it "catalyst" and "genos", meaning "genus" or "origin".
The Katalgen® additive is designed to improve the environmental and consumer properties of the fuel.
The use of Katalgen® in the fuel composition helps to improve the performance of the engine and reduce the cost of maintaining the car.
The efficiency of the engine directly depends on the amount of heat released during the combustion of fuel and on its mechanical and chemical losses. Unaccounted mechanical heat losses occur due to entrainment of the fuel in the drop-liquid state with the outgoing gases, and unaccounted chemical losses occur due to incomplete oxidation of the reacted hydrocarbons.
To neutralize unburned fuel, a catalytic converter is installed in the exhaust gas removal system, the performance of which is designed for afterburning 25% of the total amount of fuel entering the engine cylinders
The use of Katalgen® in the fuel composition helps to improve the performance of the engine and reduce the cost of maintaining the car.
The efficiency of the engine directly depends on the amount of heat released during the combustion of fuel and on its mechanical and chemical losses. Unaccounted mechanical heat losses occur due to entrainment of the fuel in the drop-liquid state with the outgoing gases, and unaccounted chemical losses occur due to incomplete oxidation of the reacted hydrocarbons.
To neutralize unburned fuel, a catalytic converter is installed in the exhaust gas removal system, the performance of which is designed for afterburning 25% of the total amount of fuel entering the engine cylinders.
The combustion catalysts included in the Katalgen ® additive burn the fuel in the engine cylinders
fuel combustion process
the effect of using Katalgen®
Katalgen®
REDUCES HEAT LOSS
the combustion time of the reaction products in the fuel combustion zone is limited and even with an excess of oxygen, complete oxidation of hydrocarbons does not occur
the oxidation process is as close as possible to the conditions of the ideal reaction
The combustion catalysts included in the Katalgen ® additive burn the fuel in the engine cylinders
fuel combustion process
the combustion time of the reaction products in the fuel combustion zone is limited and even with an excess of oxygen,complete oxidation of hydrocarbons does not occur
Katalgen® REDUCES HEAT LOSS
the effect of using Katalgen®
the oxidation process is as close as possible to the conditions of the ideal reaction
Combustion catalysts direct the oxidation reaction along a fast path. In their presence, the probability of side reactions with long chains of transformations that have a longer period of completion of the output of the final products - carbon dioxide and water-decreases. Moving in the same direction, the reaction proceeds much faster, with less energy spent on overcoming the barrier of activity of the molecules involved in side reactions. It is for this reason that the fuel has time to completely burn in the cylinders for the allotted time and is not further oxidized in the exhaust gas exhaust system.
Combustion catalysts direct the oxidation reaction along a fast path. In their presence, the probability of side reactions with long chains of transformations that have a longer period of completion of the output of the final products - carbon dioxide and water-decreases. Moving in the same direction, the reaction proceeds much faster, with less energy spent on overcoming the barrier of activity of the molecules involved in side reactions. It is for this reason that the fuel has time to completely burn in the cylinders for the allotted time and is not further oxidized in the exhaust gas exhaust system.
The path of the oxidation reaction in the presence of combustion catalysts can be described by the following formulas:
Kat+O2→[Kat]O2 Kat+R→[Kat]R
R - a hydrocarbon molecule [Kat] - catalyst
Once in the reaction zone, the catalyst reacts chemically with the hydrocarbon and oxygen in the air. Forming an intermediate active compound, the catalyst is not included in the final products of the reaction.
[Kat]O2+R→ СO2+Н2O+ NO2 [Kat]R +O2→ СO2+Н2O+ NO2
R - a hydrocarbon molecule [Kat] - catalyst
When the decomposition temperature is reached, the catalysts themselves undergo oxidation to higher oxides (CO2, H2O, N2) and are freely removed from the reaction zone.
For gasoline, diesel fuel and LPG, scientists have developed optimal composition and efficiency of organic combustion catalysts.
The path of the oxidation reaction in the presence of combustion catalysts can be described by the following formulas:
Kat+O2→[Kat]O2 Kat+R→[Kat]R
R - a hydrocarbon molecule [Kat] - catalyst
Once in the reaction zone, the catalyst reacts chemically with the hydrocarbon and oxygen in the air. Forming an intermediate active compound, the catalyst is not included in the final products of the reaction.
[Kat]O2+R→ СO2+Н2O+ NO2 [Kat]R +O2→ СO2+Н2O+ NO2
R - a hydrocarbon molecule
[Kat] - catalyst
When the decomposition temperature is reached, the catalysts themselves undergo oxidation to higher oxides (CO2, H2O, N2) and are freely removed from the reaction zone.
For gasoline, diesel fuel and LPG, scientists have developed optimal composition and efficiency of organic combustion catalysts.
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