JP2005105852A - Oily fuel combustion improving system using far infrared emission material - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problems on an oily fuel that incomplete combustion gas or hazardous smoke generated in combustion may give damage to a human body and the incomplete combustion lowers the combustion efficiency of the fuel and brings energy loss resulting in economical loss. <P>SOLUTION: Contacting a far infrared emission material, the oily fuel such as heating oil or gasoline has improved complete combustion and combustion efficiency. This protects the health of a human body from gas or hazardous smoke generated in incomplete combustion and creates energy saving environment with the improved combustion efficiency of the fuel. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention enhances the complete combustibility and combustion efficiency of oil-based fuels such as kerosene and gasoline, and reduces the generation of incompletely combustible gases and smoke damage, as well as energy efficient combustion. It is about realizing the environment.

Some conventional far-infrared ray generating substances are utilized in an edible oil oxidation suppression system.
Environmental development book "Oxidation control system for edible oil with oil feel fresh" 2003

  An object of the present invention is to improve fuel economy and improve economic efficiency of energy utilization by realizing an energy-efficient combustion environment of oil-based fuel.

In addition to the above object, the present invention also aims to reduce the occurrence of incompletely combustible gas and smoke damage associated with the combustion of oil-based fuels, and to promote the maintenance of human health. .

  The present invention improves the complete combustibility and combustion efficiency of fuel and suppresses the generation of incomplete combustible gas and smoke damage by contacting a substance emitting far infrared rays with oil-based fuel such as kerosene. Is the most important feature.

  A substance that emits far-infrared rays has been invented to increase the combustion efficiency of oil-based fuels by bringing them into contact with oil-based fuels such as kerosene and gasoline, although there is a difference in the degree of effect. Oil-based fuels such as kerosene that have been contact-converted by far-infrared radiation materials have finer molecular clusters that make up the fuel, and the reactivity with oxygen at the time of combustion increases, thereby improving the combustibility.

In the case of petroleum stoves that use kerosene, the fuel that has been contact-reacted with far-infrared materials by this method is compared with the fuel that has not been contact-reacted. The odor was significantly reduced.

The method of the present invention increases the complete combustibility and combustion efficiency of kerosene and other oil-based fuels, thus reducing the occurrence of incompletely combustible gases and smoke damage and promoting the maintenance of human health. In particular, the energy efficiency of the oil-based fuel can be improved by realizing an energy-efficient combustion environment.

The feature of the present invention is that a remarkable effect can be obtained with an oil stove that uses kerosene. However, improvement in fuel combustion efficiency is also effective in a vehicle that uses gasoline and light oil and a ship that uses heavy oil.

  This invention knows that contact with far-infrared emitting materials improves the complete combustibility and combustion efficiency of oil-based fuels such as kerosene and gasoline, and protects human health from gas and smoke damage generated during incomplete combustion. At the same time, it aims to create an energy-saving environment by improving the combustion efficiency of fuel.

Far-infrared rays are radiated from natural minerals, although there are differences in effectiveness. In order to achieve the object of the present invention, selection of a substance having a high far-infrared radiation effect and an effective utilization method of the substance are required.

First, in selecting a substance with a high far-infrared radiation effect, we focus on natural quartz schist, tourmaline stone, barley stone, Ioishi stone, feldspar, zeolite, etc. produced in a specific area. It was decided to use the quartz schist from the specific region, which was the highest.

Next, as an effective method of using the relevant substances, it is important to improve the contact with oil-based fuels such as kerosene and gasoline. In order to simply improve the contactability, it is effective to make the substance in powder form, cover it with fine filter paper-like fibers, and put it in the target fuel. However, in this method, since the corresponding substance is in the form of powder, there is a possibility that the solid component of the fine powder may be eluted outside the material covering the corresponding substance in long-term use. Due to the elution, clogging in the combustion system path of the target fuel may be a problem. In such a case, it is necessary to devise such that solid components are not mixed into the oil-based fuel to be activated. When adopting the applicable substance as a powder, the method of completely excluding the particle size below the mesh of the material covering the substance in the particle size distribution of the powder, or the crushing stone with a fine particle size and chamfering A method to cover the outside of the corresponding substance using a net such as stainless steel, plastic or fiber that does not react with the system fuel, and ceramic balls that are molded and fired after mixing the substance with powder and mixing with a binder substance such as clay The method of adopting it can be considered. It is also effective to apply a coating to the inner wall portion of the tank where the fuel is stored.

In the case of petroleum stoves that use kerosene, the fuel that has been contact-reacted with far-infrared materials by the above-mentioned method is compared with the fuel that has not been contact-reacted. The odor caused by ashing is significantly reduced, and the black smoke that tends to occur during ignition and extinguishing is also reduced.

Thus, although a remarkable effect can be obtained with an oil stove that uses kerosene, improvement in fuel combustion efficiency is also effective in vehicles that use gasoline and light oil and ships that use heavy oil.

  When a ceramic ball-shaped far-infrared emitting material is placed in a polyethylene net and sealed, it is placed inside a plastic tank that stores kerosene used in an oil stove and brought into contact with kerosene. The stove is remarkably improved in combustibility, and the generation of odor due to non-combustible gas is suppressed.

  When a far-infrared emitting material in the form of a ceramic ball was set inside a gasoline reserve tank containing gasoline and brought into contact with gasoline, cars using gasoline extracted from this tank improved combustion efficiency and improved fuel efficiency.

Claims (1)

  Utilization of far-infrared emitting materials that improve the complete combustibility and combustion efficiency of fuel by contacting with oil-based fuels such as kerosene and prevent the occurrence of incomplete combustible gas and smoke damage.