CN101029731A - Nano high-efficiency environmental protection and fuel-saving full burner - Google Patents

Abstract

The present invention relates to a nano high-efficiency environmentally friendly fuel-saving full burner, which is characterized in that the raw materials used are silica gel, carbon black and nano far-infrared materials, and the nano far-infrared materials include nano titanium oxide, nano silicon oxide, nano iron oxide, nano zinc oxide, nano aluminum oxide, nano magnesium oxide, and composite ceramic powder. The fuel saver of the present invention still uses the resonance principle of the latest nano technology to refine oil and gas molecules and reduce the impedance during conduction, which can effectively improve the efficiency of oil, electricity and gas during combustion, so as to achieve the effects of restoring horsepower, reducing oil consumption, reducing harmful exhaust gas and reducing noise.

Description

Nano high-efficiency environmental protection and fuel-saving full burner

technical field

The invention relates to a fuel economizer, in particular to a high-efficiency, environment-friendly, fuel-saving full burner processed with nanometer materials.

Background technique

Energy shortage is one of the serious problems facing the world today. Taking various measures to save energy is the focus of people's attention, thus producing various fuel-saving devices, etc., all in order to fully burn the fuel, Improve the combustion efficiency to achieve the purpose of saving fuel; there is also an additional layer of normal temperature far-infrared material layer on the inner wall of the oil chamber, which is also equipped with a constant temperature heating device. The oil rate is all low, which is still not ideal, and the oil-saving device becomes complicated, which brings trouble to the operation and use.

Contents of the invention

In order to overcome the above-mentioned defects, the object of the present invention is to provide a fuel economizer with simple structure and easy installation, specifically a high-efficiency, environment-friendly, fuel-saving full-burner processed by nano-materials.

In order to achieve the above object, the present invention adopts the following technical solutions:

Nano high-efficiency environmental protection and fuel-saving full burner, the raw materials used are silica gel, carbon black and nano far-infrared materials. Nano-far-infrared materials include nano-titanium oxide, nano-silicon oxide, nano-iron oxide, nano-zinc oxide, nano- Alumina, nano-magnesia, composite ceramic powder.

Its raw material ratio: # Element Content(g/Kg) 1 Silica gel 300~600 2 carbon black 3~8 3 Nano Titanium Oxide 150~250 4 Nano silicon oxide 2~8 5 Nano Iron Oxide 3~8 6 Nano Zinc Oxide 3~6 7 Nano alumina 3~6 8 Nano Magnesium Oxide 3~6 9 Composite ceramic powder (silica. alumina) 108~533

Processing methods:

1. Use a kneader to fully knead silica gel and carbon black into a substrate for later use;

2. Use a mixer to stir all nano-oxide materials and composite ceramic powder evenly for later use;

3. Use a kneader to fully knead item 1 and item 2 into nano-high-efficiency infrared silica gel to be used;

4. Use a roller machine to roll the nano high-efficiency infrared silica gel into a plate of a specified thickness, and then cut it into a specified strip with a knife;

5. Place the strips on the mold and press them with a hot press molding machine.

How it works

Infrared rays have a wavelength between 0.76 μm and 1000 μm, which is an electromagnetic wave. When the object is between absolute 0 degrees Celsius and 633 degrees Celsius, it will generate infrared electromagnetic waves. The higher the temperature, the shorter the wavelength and the stronger the power.

Various groups that make up molecules of compounds, such as O-H, N-H, C-H, C=C, C=O, and C≡C, etc., have their specific infrared absorption regions, and the higher-intensity absorption bands are called group frequencies , and its position is generally called the characteristic absorption peak. When the object is irradiated by infrared light, after the molecules absorb the radiation of certain frequencies, molecular vibrations and rotations will occur, and the transition from the stable ground state to the excited state will become active.

Gasoline and diesel oil exist in the structure of molecular clusters. When the molecules in the molecular clusters vibrate and rotate, the large molecular clusters are separated into small molecular clusters due to the increase in activity, the enhancement of surface energy and the effect of vibration force. can be refined down to the molecular state. This result makes gasoline and diesel easier to ignite and burn more completely, so the power can be enhanced and the effect of fuel saving can be achieved. At the same time, the total amount of harmful exhaust gas will also be reduced to the bottom, which is conducive to environmental protection.

Due to the large specific surface area of nanomaterials, the amount of generation, emission and reflection of infrared rays is also particularly large. And when the engine is running, the temperature of the working environment gradually increases, causing the power of the infrared electromagnetic wave to increase. Therefore, it has a strong and rapid activation and refinement ability for molecular groups of gasoline and diesel.

And when a variety of nano-infrared ceramic materials of different sizes are mixed, infrared electromagnetic waves of different wavelengths and intensities can be generated, emitted and reflected at the same time. Under this condition, the required infrared electromagnetic wave will not be continuously effective due to the temperature change of the working environment, and at the same time, it has synergy, resonance, and amplification effects to make the efficiency stronger.

Nano high-efficiency, environmental protection and fuel-saving full burner is made by applying the above-mentioned principles and using silica gel as a carrier to mix and process various designated nano-infrared ceramic materials.

It is installed on the oil rail and oil inlet pipe of the engine in a coated manner, so that specific infrared electromagnetic waves can penetrate the pipe wall to activate the fuel, refine and separate impurities, so that the fuel can increase the dissolved oxygen rate, make it easier to atomize and ignite, and burn It is more complete, so the power can be enhanced to save fuel, and the total amount of harmful exhaust gas will also be reduced to the bottom, which is conducive to environmental protection.

It is installed on the intake pipe of the engine in a coated way, so that specific infrared electromagnetic waves penetrate the pipe wall to activate the air, refine and separate impurities, so that oxygen can be more easily integrated into the oil and gas, and the combustion is more complete and the exhaust gas is less.

Then it is installed on the ignition high-voltage connection of the engine in a coating manner, so that specific infrared electromagnetic waves can penetrate the pipe wall to reduce impedance, make ignition smoother, and reduce the probability of incomplete combustion.

The overall efficiency and results make the nano high-efficiency, environmental protection and fuel-saving full burner have strong functions of increasing power, saving fuel and environmental protection.

The fuel economizer of the present invention still uses the resonance principle of the latest nanotechnology to refine the oil and gas molecules and reduce the impedance during conduction, which can effectively improve the efficiency of oil, electricity and steam during combustion, so as to restore horsepower and reduce fuel consumption , The effect of reducing harmful exhaust gas and reducing noise.

Detailed ways

Nano high-efficiency environmental protection and fuel-saving full burner, the raw materials used are 600 silica gel, 8 carbon black, 150 nanometer titanium oxide, 8 nanometer silicon oxide, 8 nanometer iron oxide, 6 nanometer zinc oxide, 6 nanometer aluminum oxide, 6 nanometer magnesium oxide, 208 composite ceramic powder.

Processing methods:

1. Use a kneader to fully knead silica gel and carbon black into a substrate for later use;

2. Use a mixer to stir all nano-oxide materials and composite ceramic powder evenly for later use;

3. Use a kneader to fully knead item 1 and item 2 into nano-high-efficiency infrared silica gel to be used;

4. Use a roller machine to roll the nano high-efficiency infrared silica gel into a plate of a specified thickness, and then cut it into a specified strip with a knife;

5. Place the strips on the mold and press them with a hot press molding machine.

Claims (2)

1. Nano high-efficiency environmental protection and fuel-saving full burner, characterized in that: the raw materials used are silica gel, carbon black and nano far-infrared materials. Nano-far-infrared materials include nano-titanium oxide, nano-silicon oxide, and nano-iron oxide , nano-zinc oxide, nano-alumina, nano-magnesia, composite ceramic powder; Raw material ratio: content (g/Kg) 1. Silica gel 300~600, 2. Carbon black 3~8 3. Nano titanium oxide 150~250 4. Nano silicon oxide 2~8 5. Nano iron oxide 3~8 6. Nano zinc oxide 3~6 7. Nano alumina 3~6 8. Nano magnesium oxide 3~6 9. Composite ceramic powder (silicon oxide, aluminum oxide) 108~533. 2. The nanometer high-efficiency environmental protection and fuel-saving total burner according to claim 1, characterized in that: its processing method: 1. Use a kneader to fully knead silica gel and carbon black into a substrate for later use; 2. Use a mixer to stir all nano-oxide materials and composite ceramic powder evenly for later use; 3. Use a kneader to fully knead item 1 and item 2 into nano-high-efficiency infrared silica gel to be used; 4. Use a roller machine to roll the nano high-efficiency infrared silica gel into a plate of a specified thickness, and then cut it into a specified strip with a knife; 5. Place the strips on the mold and press them with a hot press molding machine.