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Method for using infrared radiation catalyst in burner

A far-infrared radiation and burner technology, which is applied in the direction of combustion methods, chemical/physical/physicochemical processes of energy application, liquid fuel supply/distribution, etc., can solve the problem of inability to play a beneficial role, inability to treat fuel, and reduce the efficiency of internal combustion engines And other issues

Inactive Publication Date: 2007-10-10
白绍武
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] The above-mentioned technical solutions have saved fuel to a certain extent, and have achieved fuel-saving effects. However, these technical solutions also have some inherent disadvantages: first, because only a thin layer of material surface is activated to trigger far-infrared rays , the central part of the granular far-infrared radiation element cannot play a beneficial role, resulting in a serious waste of resources; second, the above-mentioned technical scheme can only process the fuel in the fuel tank or cylinder of the engine, and cannot treat the combustion air process, and the fuel cannot be processed during the fuel delivery process, and the energy-saving potential of the far-infrared radiation material cannot be fully utilized; the third, when the above-mentioned technical solution is applied to motor vehicles, etc., the above-mentioned wire mesh is placed in the cylinder The container, as the vehicle bumps, may scratch the surface of the cylinder, causing poor sealing between the cylinder and the piston, reducing the efficiency of the internal combustion engine

Method used

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  • Method for using infrared radiation catalyst in burner
  • Method for using infrared radiation catalyst in burner
  • Method for using infrared radiation catalyst in burner

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0013] As shown in Figure 1, the present invention is applied to a single-cylinder four-stroke gasoline engine.

[0014] In the combustion system of a single-cylinder four-stroke gasoline engine, that is, the inner surface of the cylinder 2 and the surface of the piston 3 are coated with a far-infrared radiation catalyst 1 .

[0015] In the combustion-supporting air delivery system of the single-cylinder four-stroke gasoline engine, the inner surface of the combustion-supporting air channel 5 behind the air filter 4 is coated with a far-infrared radiation catalyst 1 and a heater 6 is arranged.

[0016] In the fuel delivery system of the single-cylinder four-stroke gasoline engine, as the fuel delivery channel before the fuel enters the carburetor 7, a far-infrared radiation catalyst processor 10 is arranged, and a heater 6 is arranged.

[0017] In the fuel tank 8 , the fuel filter 9 is coated with a far-infrared radiation catalyst 1 .

[0018] Coat the far-infrared radiation ...

Embodiment 2

[0026] As shown in Fig. 2, the present invention is applied to a gas boiler.

[0027] The far-infrared radiation catalyst 1 is coated in the combustion system of the oil-fired boiler, that is, the combustion chamber.

[0028] A far-infrared radiation catalyst processor 10 and a heater 6 are arranged on the fuel delivery system of the oil-fired boiler, that is, the oil supply pipe.

[0029] In the combustion-supporting air delivery system of the oil-fired boiler, that is, the inner surface of the combustion-supporting air channel 5 is coated with a far-infrared radiation catalyst 1 and a heater 6 is arranged.

[0030] The far-infrared radiation catalyst 1 is coated on the furnace head 11 of the oil-fired boiler.

[0031] The far-infrared radiation catalyst 1 is coated on the fuel tank 8 and the fuel filter 9 .

[0032] The far-infrared radiation catalyst 1 is coated on the oil and gas filtration system of the oil-fired boiler. Not shown in the figure.

[0033] All the other...

Embodiment 3

[0038] As shown in Fig. 3, the present invention is applied to a civilian ejection type atmospheric gas burner.

[0039] The far-infrared ray catalyst 1 is coated on the surface of the civilian ejector type atmospheric gas burner, especially the inner surface of the ejector tube, the surface of the fire cover 21 and the surface of the burner shell 23 .

[0040] Since the civilian ejection type atmospheric gas burner has a high temperature in use, it is not necessary to add any additional heater to improve the work efficiency of the far-infrared catalyst 1 .

[0041] The combustion-supporting air enters the place where the combustion reaction takes place through the channel in the middle of the injection tube and the burner casing 23. After the activation treatment of the far-infrared catalyst 1 coated on the injection tube and the burner casing 23, the oxygen properties in the combustion-supporting air become more active; the gaseous fuel also becomes more active after the act...

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PUM

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Abstract

A method of infrared radiation catalyst used in burner is disclosed, whose character is that infrared radiation catalyst is painted1 in burner or where in infrared radiation treater is set. The infrared radiation catalyst coated in the burner, on the conveying system of fuel or comburant air contacts to fuel or comburant air, or on the filtring system of that, or on the firing system, or furnace end, or fuel accumulator system, making the fuel and comburant air activated by self-thinning of infrared radiation catalyst, fuel molecular group and molecule and activation of comburant air. So the comburant air and fuel contact and react more thoroughly so that combustion more complete, combustion rate and calorific efficiency are increased with less or even no harmful gas. Technique of surface coating saves infrared radiation catalyst material best.

Description

technical field [0001] The invention relates to a method for applying a far-infrared radiation catalyst to a burner. Background technique [0002] In today's world, on the one hand, energy shortage has become a worldwide problem, and on the other hand, environmental pollution caused by insufficient fuel combustion is always troubling people. Alternative energy, therefore, how to maximize the use of existing energy, especially oil and natural gas, while reducing pollution, has become the focus of attention all over the world. People have been trying to save energy in various ways, including improving the structure of the burner so that the fuel can be burned more fully, increasing the combustion rate and heating efficiency, reducing the generation of harmful gases, and also including improving the composition of the fuel so that The fuel can be burned more fully, and even the combustion rate of the fuel is sacrificed for exhaust gas treatment to reduce the generation of harm...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F23K5/14F23K5/08B01J19/12
Inventor 白绍武
Owner 白绍武