Method and apparatus for manufacturing fuel combustion accelerators

JP2026109474APending Publication Date: 2026-07-01稲田 孝信

Patent Information

Authority / Receiving Office
JP · JP
Patent Type
Applications
Current Assignee / Owner
稲田 孝信
Filing Date
2024-12-19
Publication Date
2026-07-01

AI Technical Summary

Technical Problem

Fossil fuels contribute to environmental destruction due to emissions of harmful substances and greenhouse gases, and there is a need to improve combustion efficiency to reduce these impacts.

Method used

A fuel combustion accelerator is produced by mixing natural vegetable enzymes with kerosene to subdivide fossil fuel molecules, enhancing combustion efficiency and reducing harmful substance generation.

Benefits of technology

The fuel combustion accelerator improves fuel efficiency by 10-15%, reduces harmful emissions, and prevents environmental damage, offering economic benefits and maintenance savings.

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Abstract

While the Earth uses a wide variety of energy sources, fossil fuels have been used in many fields since ancient times and play an important role in human life. However, in recent energy and environmental issues, fossil fuels have been criticized for their environmental impact due to emissions of carbon, sulfur, nitrogen, and other substances. [Solution] In view of the above-mentioned problems, this invention aims to provide a fuel combustion accelerator manufacturing method and apparatus that can improve combustion efficiency, easily suppress the generation of harmful greenhouse gases, and is stable, thereby improving user satisfaction and contributing to the prevention of environmental damage.
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Description

Technical Field

[0001] This invention relates to a manufacturing method and a manufacturing apparatus for producing a fuel accelerator that has good fuel combustion efficiency and can suppress environmental destruction.

Background Art

[0002] On Earth, a variety of energies are being used. Among these energies, fossil fuels have been used in many fields since ancient times and play an important role in human life.

[0003] Regarding this fossil fuel, in recent energy and environmental problems, it is said that fossil fuels have an impact on environmental destruction due to emissions such as carbon, sulfur, and nitrogen content.

[0004] To prevent or suppress this environmental destruction, it is effective to reduce toxic gases generated by the use of fossil fuels and to improve combustion efficiency.

[0005] In view of the above problems, this invention provides a fuel combustion accelerator manufacturing method and a manufacturing apparatus that can improve combustion efficiency, easily suppress the generation of harmful substances and greenhouse gases, and are stable, thereby improving user satisfaction and contributing to the prevention of environmental destruction.

[0006] This invention is characterized by being a fuel combustion manufacturing method for producing a combustion accelerator prepared by mixing natural vegetable enzymes with kerosene. Since the reacted kerosene also functions as fuel, fuel efficiency can be improved.

[0007] Kerosene is used in the fuel combustion accelerator of this invention because the molecular weight (number of carbons) of kerosene is between that of gasoline and gas oil, and it has high versatility for subdividing the carbon size of fossil fuels to increase fuel efficiency. By mixing the decomposition enzyme with kerosene, kerosene is used as a catalyst to subdivide the molecules of fossil fuels and increase combustion efficiency.

[0008] Improving the combustion efficiency of fossil fuels reduces residual carbon, thereby preventing global warming, and provides economic benefits through a substantial reduction in fossil fuel consumption. In other words, it contributes to the conservation of resources.

[0009] [Manufacturing items and methods] [Manufacturing materials] This invention involves mixing natural plant enzymes and kerosene to produce a fuel combustion accelerator.

[0010] [Manufacturing method] Depending on the production volume, an appropriate amount of manufacturing material is placed in a stirrer, and a swirling motion is performed at a suitable temperature for a certain period of time. After the stirring is complete, a further period of maturation is allowed, followed by filtration to produce the finished product.

[0011] [Agitation process during manufacturing] Inside the agitator, the enzymes' decomposition function breaks down the molecules of fossil fuels (in this case, "kerosene"), making them easier to burn. Effect of the invention

[0012] This invention provides a fuel manufacturing method and apparatus that can improve fuel efficiency, easily suppress the generation of harmful substances, and produce stable fuel oil, thereby improving user satisfaction and contributing to the prevention of environmental damage.

[0013] In this way, we can manufacture a fuel combustion accelerator that is extremely clean, helps prevent environmental damage, and is highly fuel-efficient. This fuel combustion accelerator can reduce the amount of oil used by 10-15% and improve combustion efficiency by 10-15%, resulting in a total fuel saving of approximately 10-15%.

[0014] Thanks to the power of enzymes, the combustion accelerator can be used as is even in cold regions (areas with temperatures down to -20°C).

[0015] Using this fuel accelerator prevents carbon buildup in the engine and boiler, as well as rust and corrosion in the nozzles, thus eliminating the need for general maintenance and reducing maintenance costs.

[0016] The completed fuel combustion accelerator is stabilized by enzymes after the reaction, so no changes are observed in petroleum products over time. Furthermore, the completed combustion accelerator is highly transparent and functions as a reacted fuel, thus improving fuel efficiency.

[0017] The completed combustion accelerator does not produce soot or black smoke due to its enzymatic decomposition function, thus preventing the performance degradation caused by residual soot and black smoke in combustion engines that burn fossil fuels.

Claims

1. A method for producing a fuel combustion accelerator by mixing natural plant enzymes with kerosene.

2. A fuel combustion accelerator manufacturing apparatus that produces a fuel combustion accelerator by mixing natural plant enzymes with kerosene.