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A negative-ion graphene oil-saving device and a preparing method thereof

A graphene and negative ion technology, applied in the field of negative ion graphene fuel-saving device and its preparation, can solve the problems of poor stability and effect, high cost, inconvenient use, etc., and achieves improved electron exchange efficiency, vibration and Rotation-enhancing, activity-enhancing effects

Inactive Publication Date: 2019-08-06
迈孚伦新能源科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] Most of these products need to be placed near the inlet of the oil pump or cylinder. On the one hand, most of them need to modify the oil circuit during installation, which is not very convenient to use. On the other hand, because of the external accessories, their stability and effect are not very good.
In short, these fuel-saving devices need to be modified, which is expensive and the energy-saving effect is not obvious

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0028] The present embodiment provides a kind of anion graphene fuel-saving device, comprises at least two hard plastic plates, is provided with anion graphene layer between adjacent two hard plastic plates, and described anion graphene layer is made of following parts by weight Prepared from raw materials: 50 parts of tourmaline, 20 parts of mullite, 15 parts of medical stone, graphene / nano-TiO 2 Composite powder 3 parts, Fe 2 o 3 2 parts, MnO 2 2 parts, SiO 2 2 parts, 8 parts of methyl cellulose, 4 parts of dicumyl oxide.

[0029] Among them, the graphene / nano-TiO 2 Composite powder is made by the following preparation method:

[0030] 1) Dissolve sodium dodecylsulfonate in hot n-butanol at 55°C for stirring and dispersion, and then add nano-TiO 2 Stir and disperse, ultrasonically treat for 1h, and then filter and dry to obtain modified nano-TiO 2 Powder;

[0031] 2) Add the modified nano-TiO2 powder and graphene into the oxalic acid solution with a mass percent conc...

Embodiment 2

[0038] The present embodiment provides a kind of anion graphene fuel-saving device, comprises at least two hard plastic plates, is provided with anion graphene layer between adjacent two hard plastic plates, and described anion graphene layer is made of following parts by weight Prepared from raw materials: 40 parts of tourmaline, 30 parts of mullite, 10 parts of medical stone, graphene / nano-TiO 2 Composite powder 5 parts, Fe 2 o 3 1 part, MnO 2 3 parts, SiO 2 1 part, 10 parts of methyl cellulose, 3 parts of dicumyl oxide.

[0039] Wherein, preferably, the crosslinking agent is dicumyl oxide, benzoyl peroxide, di-tert-butyl peroxide or 2,5 di-tert-butyl peroxyhexane.

[0040] Wherein, preferably, the graphene / nano-TiO 2 Composite powder is made by the following preparation method:

[0041] 1) Dissolve sodium dodecylsulfonate in hot n-butanol at 50°C for stirring and dispersion, and then add nano-TiO 2 Stir and disperse, ultrasonically treat for 1.5h, and then filter and...

Embodiment 3

[0049] The present embodiment provides a kind of anion graphene fuel-saving device, comprises at least two hard plastic plates, is provided with anion graphene layer between adjacent two hard plastic plates, and described anion graphene layer is made of following parts by weight Prepared from raw materials: 60 parts of tourmaline, 10 parts of mullite, 20 parts of medical stone, graphene / nano-TiO 2 Composite powder 2 parts, Fe 2 o 3 3 parts, MnO 2 1 part, SiO 2 3 parts, 5 parts of carboxymethyl cellulose, 5 parts of di-tert-butyl peroxide.

[0050] Wherein, preferably, the graphene / nano-TiO 2 Composite powder is made by the following preparation method:

[0051] 1) Dissolve sodium dodecylsulfonate in hot n-butanol at 60°C for stirring and dispersion, and then add nano-TiO 2 Stir and disperse, ultrasonically treat for 0.5h, and then filter and dry to obtain modified nano-TiO 2 Powder;

[0052] 2) Add the modified nano-TiO2 powder and graphene into the oxalic acid solutio...

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PUM

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Abstract

A negative-ion graphene oil-saving device and a preparing method thereof are disclosed. The device includes at least two hard plastic plates between which a negative-ion graphene layer is arranged. The negative-ion graphene layer is prepared from, by weight, 40-60 parts of tourmaline, 10-30 parts of mullite, 10-20 parts of medical stone, 2-5 parts of graphene / nanometer TiO2 composite powder, 1-3 parts of Fe2O3, 1-3 parts f MnO2, 1-3 parts of SiO2, 5-10 parts of an adhesive and 3-5 parts of a crosslinking agent. The negative-ion graphene layer has infrared radiation and negative ion releasing functions, can make gas and oil molecule clusters smaller, can increase oxygen activity, can increase the combustion efficiency, can reduce black smoke and exhaust, and can save 20% or more energy.

Description

technical field [0001] The invention relates to the technical field of fuel-saving devices, in particular to an anion graphene fuel-saving device and a preparation method thereof. Background technique [0002] In order to achieve sustainable development, one of the most important and urgent issues at present is energy. To solve the problem of energy shortage worldwide, in addition to finding new environmentally friendly and sustainable energy sources, for the existing fuel energy, finding ways to save energy is currently the most direct and effective measure. [0003] Among them, the products for reducing fuel consumption in vehicles mainly include the following: [0004] 1. By ionizing and decomposing water into hydrogen and oxygen, it is sent to the engine to participate in combustion to reduce gasoline consumption; [0005] 2. Through the frequency conversion technology, the circuit pulse is stabilized, and the microcomputer controls the oil circuit and the circuit more...

Claims

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Application Information

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IPC IPC(8): C04B26/28
CPCC04B26/285C04B14/36C04B14/041C04B14/024C04B14/305C04B14/308C04B14/06C04B14/30C04B24/00
Inventor 严楠
Owner 迈孚伦新能源科技有限公司
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