Quantum graphene fuel oil energizer and preparation method thereof

An alkene fuel and energizer technology, applied in mechanical equipment, combustion engines, machines/engines, etc., can solve the problem that the far-infrared wavelength range cannot cover the fuel absorption wavelength range, etc. The effect of increasing the output power

Inactive Publication Date: 2019-09-17
LIAONING LANJING TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The purpose of the present invention is to provide a quantum graphene fuel energizer with fuel-saving and emission-reducing effects and its preparation method, so as to solve the problem that the far-infrared wavelength range radiated by existing fuel-saving and emission-reducing materials cannot cover the entire absorption wavelength range of fuel , and then make the fuel molecules more refined, improve the combustion efficiency of fuel in the engine, increase the output power of the engine, and achieve the effects of saving fuel and reducing exhaust emissions

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] Step 1: Polyethylene (PE) particles are ground into a powder of 40 mesh in a plastic mill. The grinding process is: rotating speed: 4000r / min, and grinding plate temperature: 50°C.

[0027] Step 2: In terms of parts by weight, combine 75 parts of the thermoplastic resin powder obtained in Step 1 with 5 parts of graphene (the number of carbon atom layers of graphene is 5, the ratio of sheet diameter / thickness is 15, and the graphene scale is 50nm), 15 parts of far-infrared anion powder (the far-infrared anion powder is tourmaline, particle size is 170nm), 5 parts of other additives (the pro-other additives are hydrophilic fumed silica and pentaerythritol ester, mass ratio 2: 1) Add them to the internal mixer and mix them together. The mixing process is: mixing time 10min, rotating speed 50r / min.

[0028] Step 3: Melt and blend the mixture obtained in step 2 with a twin-screw extruder to form a filled masterbatch. The extrusion process parameters are: melt temperature 160°C, ...

Embodiment 2

[0031] Step 1: Polyamide (PA) particles are ground into a powder of 60 mesh in a plastic mill. The grinding process is: rotation speed: 3500 r / min, and grinding plate temperature: 60°C.

[0032] Step 2: In terms of parts by weight, combine 80 parts of the thermoplastic resin powder obtained in Step 1 with 6 parts of graphene (the number of carbon atom layers of graphene is 3 layers, the ratio of sheet diameter / thickness is 12, and the graphene scale is 70nm), 12 parts of far-infrared anion powder (far-infrared anion powder is germanium ore, particle size is 180nm), 2 parts of other additives (other additives are hydrophilic fumed silica, pentaerythritol ester, dioctyl phthalate Ester, the mass ratio is 1:1:1), and add them to the internal mixer for uniform mixing. The mixing process is: mixing time 5min, rotating speed 40r / min.

[0033] Step 3: Melt and blend the mixture obtained in step 2 with a twin-screw extruder to form a filled masterbatch. The extrusion process parameters ar...

Embodiment 3

[0036] Step 1: Polypropylene (PP) particles are ground into a 45 mesh powder in a plastic mill. The grinding process is: rotation speed: 3700 r / min, grinding plate temperature: 55°C.

[0037] Step 2: In terms of parts by weight, combine 75 parts of the thermoplastic resin powder obtained in Step 1 with 5 parts of graphene (the number of carbon atom layers of graphene is 7 layers, the sheet diameter / thickness ratio is 16, and the graphene scale is 100nm), 15 parts of far-infrared anion powder (far-infrared anion powder is guiyang stone and mullite, mass ratio 1:1, particle size is 190nm), 5 parts of other additives (other additives are pentaerythritol ester, phthalic acid The octyl ester, the mass ratio is 1:1), are added to the internal mixer and mixed uniformly. The mixing process is: mixing time 8min, rotating speed 60r / min.

[0038] Step 3: Melt and blend the mixture obtained in step 2 with a twin-screw extruder to form a filled masterbatch. The extrusion process parameters are...

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Abstract

The invention relates to the fuel oil energy saving field, in particular to a quantum graphene fuel oil energizer and a preparation method thereof. The quantum graphene fuel oil energizer is formed by performing mixed injection molding on materials by following weight part: 65-93 parts of thermoplastic resin, 1-10 parts of graphene, 5-20 parts of far infrared negative ion powder and 1-5 parts of other adjuvants. Due to the fact that the graphene and the far infrared negative ion powder are added in the materials, the prepared quantum graphene fuel oil energizer can generate far infrared rays and negative ions for a long time during the use process, can directly act on fuel oil in an engine oil inlet pipe, effectively activates oil performance of the fuel oil, refines oil molecules and increases dissolved oxygen content in the fuel oil, enables the fuel oil to burn completely, reduces oil consumption of automobiles, removes carbon deposits, reduces automobile exhaust emission, and not only saves energy, but also protects environment.

Description

Technical field [0001] The invention relates to the field of fuel energy saving, in particular to a quantum graphene fuel energizer and a preparation method thereof. Background technique [0002] Energy shortage and environmental problems are the two major issues facing the world at present, and they are related to the survival and development of mankind. At present, with the continuous improvement of people's awareness of energy conservation and environmental protection, rising oil prices have put more and more pressure on people's daily lives. Therefore, fuel saving and power improvement of automobiles have attracted widespread attention. [0003] The main function of the automobile power booster is to save fuel and greatly reduce harmful gas emissions; remove car carbon deposits and prolong the service life of the engine; under the same fuel conditions, the power is enhanced and the acceleration performance is significantly improved; the vehicle is easier to start; the exhaust ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F02M27/06B29B9/06B29C45/78
CPCB29B9/06B29C45/78B29C2945/76531B29C2945/76561F02M27/06Y02T10/12
Inventor 杨静张柏华
Owner LIAONING LANJING TECH CO LTD
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