JP2022096032A - Emulsion fuel formation system, emulsion fuel formation method, and formation method of modified data of emulsion fuel - Google Patents

Abstract

To provide a radioactivity-harmless emulsion fuel whose combustion efficiency is prevented from decreasing, the decreasing caused by incompletely carrying out emulsification of raw material water and a raw material oil of a combustion fuel by a separation phenomenon derived due to a difference in specific gravity between both of them in mixture of both.SOLUTION: Neutrino form wave resonance is carried out to thereby decompose tritium in raw material water having a low specific gravity, containing tritium and a neutrino, into a neutron and a proton by atom conversion, so that raw material water which is radioactivity-harmless, is low specific gravity-adjusted, and is composed of a microparticle made to be ultrafine is formed from the tritium-containing raw material water.SELECTED DRAWING: Figure 4

Description

The present invention relates to an emulsion fuel forming system, an emulsion fuel forming method, an emulsion fuel reforming data forming method, and a tritium-containing raw material water reforming data forming method.

A mixed fuel generator that mixes water and base oil (gasoline, heavy oil, light oil, kerosene, waste oil) that have been refined to the nanometer scale is known.

In Patent Document 1, water and base oil are mixed at a ratio of 50 to 70% and base oil 50 to 30%, the air pressure in the housing is maintained at -0.1 to +1.0 MPa, and the magnetic field force is 200. The base oil is set to ~ 400 gallons and irradiated with infrared rays of 5 to 20 μm or more to form a base oil that becomes fine particles of 0.28 to 10 nanometers and fine particles of 10 to 50 nanometers, and vaporizes both water and base oil. As a state, a mixed fuel generator that produces a mixed oil with a mixing accuracy of 90 to 100% is described.

On the other hand, the stored water generated by the accident at the Fukushima Daiichi Nuclear Power Station is about to reach the treatment limit of storage, and the national government and related organizations are diluting it with seawater to reduce it to about 1/40 of the national emission standard. It is considered to release it into the ocean or dilute it with air to make it less than the national emission standard and release it into the atmosphere.

As of March 2020, about 980 tanks of treated water containing tritium called "ALPS treated water" are stored on the premises of the Fukushima Daiichi Nuclear Power Station, and the storage shipping fee is 200,000 tons. It is reported to have reached nearby.

The mass of tritium contained in the ALPS-treated water in the tank is only 16 g in terms of pure tritium, but the total amount of radioactive substances is said to be about 860 trillion bechtel.

It is difficult for the national government and related organizations to separate and remove tritium at the concentration contained in ALPS-treated water with the current science and technology, and it is cheapest to dilute it with seawater while containing tritium and then release it into the ocean. The result of the trial calculation is shown.

On the other hand, the source of ALPS-treated water is contaminated water generated by the contact of the melted-down nuclear fuel with the groundwater that has flowed into the nuclear building. It was reported that further verification would proceed as it could have an impact.

Patent Document 2 describes palladium as a catalyst for element conversion as a method for converting elements such as calcium, copper, magnesium, and cesium into useful elements and a method for detoxifying radioactive materials by applying this element conversion technology. Alternatively, a high-frequency wave vibrating device including a vibrating blade whose surface is plated with platinum is described.

Patent Document 3 further describes electrolyzing an aqueous solution containing tritium.

In Non-Patent Document 1, regarding neutrinos that enable atomic conversion, when positive neutrinos act, they are converted into positive atomic radicals with one more atomic number, and electrons, that is, β-rays, are generated in a charge-conservative manner, and anti-neutrinos. It is described that when is acted, it is converted into a negative atomic radical with one less atomic number, neutrinos are generated in a charge-conservative manner, and γ-rays are generated when the electrons collide with each other.

The following items are described in the published paper published by Professor Seiji Takao of Kyushu University.

Decomposition mechanism of radioactive cesium 137 Therefore, if a submarine water reactor is used, the radioactive elements present in the radioactively contaminated water or the radioactively contaminated soil will be atomized into another non-radioactive element as follows. It is thought that it will be converted.

First, when positive neutrinos (γ) collide with cesium-137 ( ₅₅ Cs ¹³⁷ ), the neutrons in the nucleus are converted into protons and the atomic number rises by one, so equation (6) holds.

γ ＋ ₅₅ Cs ¹³⁷ → ₅₆ Ba ^{137 * ＋} ＋ e- ⁽ 6)

That is, cesium-137 is converted into an electron-deficient barium-atomic radical ( ₅₆ Ba ^{137 * +} ), and electrons (e- ⁾ are generated from the zero point in a charge-conservative manner. Here, the atomic radical is a neutrino-excited atomic radical that was first theoretically discovered by Takao et al. ^6,7,8,9) as shown in Appendix 2) Substantive theory (new development of neutrino theory). ..

Next, when antineutrino ( γ ) collides with cesium-137 ( ₅₅ Cs ¹³⁷ ), the protons in the nucleus are converted to neutrons and the atomic number is reduced by one, so equation (7) holds.

γ + ₅₅ Cs ¹³⁷ → ₅₄ Xe ^{137 * +} + e ⁺ (7)

That is, cesium-137 is converted into an electron-rich xenon-atomic radical ( ₅₄ Xe ^{137 * +} ), and positrons (e ⁺ ) are generated from the zero point in a charge-conservative manner.

Similarly, for iodine-131 ( ₅₃ I ¹³¹ ) with a half-life of about 8 days, it is decomposed as in equations (8) and (9).

γ ＋ ₅₃ I ¹³¹ → ₅₄ Xe ^{131 * ＋} ＋ e- ⁽ 8)

γ ＋ ₅₃ I ¹³¹ → ₅₂ Te ^{131 *-} ＋ e ⁺ (9)

That is, the radioactive element, iodine 131, is decomposed into electron-deficient xenon atomic radicals ( ₅₄ Xe ^{131 * +} ) and electron-rich tellurium atomic radicals ( ₅₂ Te ^{131 *-} ).

Neutrino zero point pair generation from minute water droplets and decomposition mechanism of radioactive tritium in contaminated water storage tank Furthermore, I would like to summarize the decomposition mechanism of tritium below.

Positive (γ) and anti ( γ ) neutrinos are generated in pairs from minute water droplets.

0 → γ + γ (10)

First, when a positive neutrino collides with a neutron (n) in a tritium ( ₁ H ³ ) nucleus, it changes to a proton (p) and the atomic number rises by one, so equation (11) holds.

γ ＋ ₁ H ³ → ₂ He ^{3 * ＋} ＋ e- ⁽ 11)

Here, 1 in ₁ H ³ is the atomic number, that is, the number of protons, 3 is the atomic weight, and 3-1 = 2 is the number in the Middle Ages.
₂ He ^{3 * +} is an electron-deficient helium atom radical, and e ^- is an electron generated from the zero point in a charge-conservative manner.

Next, when the antineutrino (γ) collides with the proton of the tritium nucleus, it changes to a neutron and the atomic number is lowered by one, so that equation (12) holds.

γ ＋ ₁ H ³ → (3n) ^{* +} ＋ e ⁺ (12)

Here, (3n) ^** is an electron-excessive trineutron radical, and e ⁺ is a positron generated from the zero point in a charge-conservative manner.

When a positron generated in the process of equation (12) collides with an excess electron of (3n) ^*- , a γ-ray is generated, so that equation (13) holds.

γ + ₁ H ³ → 3n + 2γ (13)

Here, 3n is three free neutrons and 2γ is a gamma ray.

Free neutrons undergo β-decay as shown in equation (14) with a half-life of about 10 minutes.

3n → 3p ＋ 3e ^－ ＋ 3γ (14)

If the antineutrino generated in the formula (10) acts on tritium as in the formula (12), the formulas (12), (13) and (14) become a semi-permanent recycling reaction, and the decomposition of tritium is promoted. That is, if the antineutrino collides with the proton of the tritium nucleus, three neutrons are generated at the same time. As a result, β-decay of neutrons occurs at a rate of 3 times, the frequency of antineutrino generation is tripled, the recycling reaction is also tripled, and as a result, the decomposition rate of radioactivity is also tripled.

Summary As a result of studying the radioactive material decomposition mechanism of the sub-seawater reactor, the following was found.
1) As a result of treating water, persistent organic substances, soy sauce cake / sediment, and sewage sludge with a sub-seaside water reactor, chemical decomposition due to continuous atomic / molecular conversion occurs in all of them.
2) From the achievements of modern science, it is clear that the decay of the life of radioactive materials involves neutrinos that generate zero points, and if there is a neutrino generation technology, radioactive materials can be chemically decomposed by atomic conversion.
3) The sub-seawater reactor responded to the request, and in light of Takao's neutrino morphological wave resonance theory, neutrinos are generated at zero points from the center of the micro-nano water droplets.
4) As a result, radioactive cesium with atomic number 55 is likely to be converted to barium with atomic number 56 and xenon (gas) with atomic number 54. In addition, tritium in the contaminated water storage tank is also decomposed into neutrons and protons.

Patent Document 4 describes that hydrogen discharge is performed along a magnetic field, an accelerating electrode is arranged outside the hydrogen ion, hydrogen ions and pion are extracted, and the hydrogen ions and pion are applied to a thick metal plate to obtain muon neutrino and antineutrino. To.

Patent Document 5 describes a composition containing (A) a surfactant, (B) an oily component liquid at 25 ° C., and (C) water as a high-pressure fluid, and nozzle means for colliding the high-pressure fluids with each other. A method for producing an oil-in-water emulsified composition to be emulsified by an atomizing device provided with an introduction flow path for introducing the high-pressure fluid into the nozzle means is described.

Patent Document 6 describes magnetically treated water containing active hydrogen or dissolved hydrogen obtained by subjecting water to which various mineral ions have been added to magnetic treatment as a means for enhancing the surface activity of water itself and maintaining its performance. It is described that an ultrafine emulsion fuel is produced by means of press-fitting, sucking, and ejecting a petroleum-based liquid fuel together with a non-ionic surfactant using an ultrafine nozzle at the same time.

In Patent Document 7, nanoparticles are generated in a spray chamber and an air pressure mixing chamber without using additives, and nanospray water and base oil are pressure-dissolved in a mixing storage tank to prepare an emulsion fuel. It is stated that it will be generated.

Japanese Unexamined Patent Publication No. 2020-117674 Japanese Unexamined Patent Publication No. 2020-34579 Japanese Patent No. 6626084 Japanese Unexamined Patent Publication No. 11-23295 Japanese Patent No. 5117105 Japanese Unexamined Patent Publication No. 2012-224830 Japanese Unexamined Patent Publication No. 2018-131598

Abstracts of the 68th Annual Meeting of the Physical Society of Japan, 27aXE-4, p. Volumes 473, 68, No. 1, Volume 2 (2013) Seiji Takao "Zero-point life-and-death neutrinos and technical examples hidden in the theory of life decay of radioactive elements"

As described in the above-mentioned patent document, it is known that a system serving as a reformed water supply system, a reformed oil supply system, and an emulsion producing system is used in producing an emulsion John fuel.

Conventionally, when producing an emulsion John fuel having an oil-type emulsified composition, the interface between the raw material water and the raw material oil is adjusted by mixing or not mixing a surfactant or other active agent in the raw material oil. Has been done. As described in Patent Document 7, it is known to mix nanospray water and base oil, but since the raw material water and the raw material oil cause a separation phenomenon and are not sufficiently mixed, the emulsion fuel is used. There was a problem that sufficient combustion was not achieved.

On the other hand, treating ALPS-treated water to reduce its volume is an urgent theme.

There are also opinions against treating raw water, which is ALPS-treated water, and releasing it into the sea.

It is conceivable that the volume of the stored raw material water to be treated can be reduced by burning it by mixing it with the raw material oil. In this case, the fuel formation system that mixes the raw water to be treated with the raw oil
It is required that the raw material water and the raw material oil have good compatibility, are not separated by the difference in specific gravity, have a good mixed state, and can obtain good combustion efficiency.

Further, it is conceivable to use ALPS-treated water as the raw material water.

According to the research by the present inventors, the element conversion technique is used to form a fuel formation system in which tritium in ALPS-treated water is compatible with the raw water and the raw oil, is not separated by the difference in specific gravity, and has a good mixed state. It has become clear that can be applied. It is expected that by applying elemental conversion technology, tritium, which is a radioactive material contained in raw material water, which is ALPS-treated water, will be detoxified and raw water, which is ALPS-treated water containing tritium, will be formed as an emulsion fuel. Obtained.

In view of this point, the present invention focuses on the difference in specific gravity between the raw material water and the raw material oil to be mixed, and by eliminating the difference in specific gravity, the raw material water and the raw material oil are not separated due to the difference in specific gravity and are mixed. The challenge is to provide a fuel formation system that is in good condition and provides good combustion efficiency.

The present invention further applies atomic conversion technology to detoxify tritium, which is a radioactive material contained in raw material water, which is ALPS-treated water, and forms raw material water, which is ALPS-treated water containing tritium, as an emulsion fuel. As a result, the mixing of the raw water and the raw oil of the combustion fuel causes a separation phenomenon due to the difference in specific gravity between the two, and the emulsification of both is incomplete, so that the combustion efficiency may decrease. It is an object of the present invention to provide a radioactive harmless emulsion fuel forming system for forming a prevented radioactive harmless emulsion fuel.

FIG. 1 is a diagram illustrating means for forming an emulsion fuel.

In the present invention, the raw material water is reformed under a specific environment, and the raw material oil is reformed according to the environment of the reformed raw material water to eliminate the difference in specific density between the raw material water and the raw material oil, and the mixing compatibility is good. , Form a mixture of modified raw water and modified raw oil that is not separated due to the difference in specific density. For this purpose, a critical water generator is used. By using the critical water generator, it is possible to eliminate the difference in specific gravity between the raw material water and the raw material oil, and to form a mixture having good mixed compatibility and not separated by the difference in specific gravity. The critical water generator includes a supercritical water generator and a subcritical water generator. Sub-critical water is a state that is neither water (liquid) nor water vapor (gas) when the temperature and pressure of water are raised to 374 ° C. and 22 MPa or more. This point is called the critical point of water, the region above the critical point is called supercritical water, and the region slightly lower than the critical point is called subcritical water. The relationship between the pressure / temperature of sub-critical water and the density / specific gravity is centrally determined.
By forming supercritical water or subcritical water, it is possible to easily form modified raw water having a low specific density, which is reduced from the specific density of the original raw material water. Hereinafter, the case of forming subcritical water among subcritical water and supercritical water will be described, but the case is not limited to the case of forming subcritical water.
To show the general specific density of the base oil,
Gasoline 0.72 to 0.76
Kerosene 0.78 to 0.80
Light oil 0.80 to 0.84
Heavy oil 0.80 to 0.96
Is.
The emulsion fuel forming system 100 includes a raw material water treatment device 1, a raw material oil treatment device 2, and an emulsion fuel generation device 3, and is modified by the raw material water reformed by the raw material water treatment device 1 and the raw material oil treatment device 2. The quality-treated raw material oil is used to form an emulsion fuel to be supplied to the combustion device 4 by the emulsion fuel generation device 3. The raw material water treatment device 1 includes a sub-critical water generating device 10, and the sub-critical water generating device 10 includes a sub-critical environment water forming means 11, a raw material water micronization means 12, and a raw material water specific gravity adjusting means 13.
The subcritical environment water forming means 11 includes a critical environment forming device for forming a high temperature / high pressure critical environment, forms a high temperature / high pressure subcritical or supercritical environment, and is supplied from the raw material water under the environment. Form the raw water of.
The raw material water micronization means 12 forms ultrafine fine particles from the raw material water formed by the critical environment water forming means 11 to micro / nanoscale, and the raw material water under the environment to become the fine particles is produced. Form.
The raw material water specific gravity adjusting means 13 adjusts the specific gravity of the raw material water in the environment of becoming fine particles to a low specific gravity equivalent to the specific gravity of the raw material oil reformed by the raw material oil processing apparatus.
Therefore, the raw material water treatment apparatus 1 forms raw material water in the environment in which fine particles are formed with a low specific density equivalent to the specific gravity of the raw material oil to be reformed.
The raw material oil processing apparatus 2 includes a subcritical environmental oil forming means 15 provided with heating means and a raw material oil micronization generation means 16.
The subcritical environment oil forming means 15 forms a high temperature / high pressure subcritical or supercritical environment, and forms the raw material oil in an environment equivalent to the above environment from the supplied raw material water.
The raw material oil micronization means 16 forms ultrafine fine particles from the raw material oil to the micro / nanoscale, and forms the raw material oil in the environment to be the fine particles.
Therefore, the raw material oil processing apparatus 2 forms the raw material oil in the environment which becomes fine particles.
The emulsion fuel generation device 3 is composed of the same micro / nanoscale fine particles having the same specific gravity under the high temperature / high pressure subcritical environment equivalent to the high temperature / high pressure subcritical environment in the raw material water treatment device 1. The raw material water reformed by the raw material water treatment device and the raw material oil reformed by the raw material oil treatment device are mixed to form an emulsion fuel.
The supercritical state of water can be formed, for example, at a temperature of 280 to 580 ° C. and a pressure of 22.1 to 50.0 MPa.

The present invention can provide a radioactive harmless emulsion fuel forming system in which a tritium-containing raw material water containing tritium is used as a raw material water and a raw material oil is used as a combustion fuel to form a radioactively harmless emulsion fuel. can.
FIG. 2 is a diagram showing that a critical water generator is used to generate neutrinos to generate neutrinos and chemically decompose tritium, which is a radioactive substance, by atomic conversion.
In FIGS. 1 and 2, a subcritical water reactor is used to generate neutrinos, neutrinos are generated, tritium, which is a radioactive substance, is chemically decomposed by atomic conversion, and tritium-containing low specific gravity and ultrafine particles are used. A means for forming tritium- and neutrino-containing raw material water which becomes fine particles is formed, and a means for forming a radioactive harmless emulsion fuel is formed.

In the present invention, a tritium-containing raw material water suitable for emulsification with a raw material oil is formed by using the means for forming the radioactive harmless emulsion fuel without using a surfactant or other active agents, and is used with the raw material oil. It is emulsified to form a radioactive harmless emulsion fuel.

The sub-critical water generator further comprises a morphological wave resonance means 14 having a radioactive tritium decomposition function.

In this way, the subcritical environmental water forming means 11 forms the environment in the tritium-containing raw material water, and forms the tritium-containing raw material water under the environment from the tritium-containing raw material water.

The raw material water micronization means 12 forms ultrafine fine particles from the tritium-containing raw material water to the micro / nano scale to generate neutrinos, and forms tritium and neutrino-containing raw material water.

The raw material water specific gravity adjusting means 13 adjusts the specific gravity of the tritium- and neutrino-containing raw material water, which becomes ultrafine fine particles, to a low specific density equal to the specific density of the raw material oil.

The raw material water treatment apparatus 1 provided with the raw material water fine particle forming means 12 and the raw material water specific gravity adjusting means 13 forms tritium-containing neutrino-containing raw material water which becomes ultrafine fine particles having a low specific density containing tritium.

The morphological wave resonance means 14 causes neutrino morphological wave resonance to decompose the tritium in the raw material water containing the tritium and neutrinos having a low specific density into neutrons and protons by atomic conversion.

Therefore, the raw material water treatment apparatus 1 forms raw material water in the environment in which the tritium-containing raw material water is radioactively harmless and becomes fine particles with a low specific density equivalent to the specific gravity of the raw material oil to be reformed.

The emulsion fuel generation device 3 was reformed in the raw material water treatment device composed of the same micro / nanoscale fine particles having the same specific gravity under the same high temperature / high pressure subcritical or supercritical environment. The radioactively harmless raw material water and the raw material oil reformed by the raw material oil processing apparatus 2 are mixed to form an emulsion fuel.

From the generated tritium-containing raw material water, the raw material water composed of ultrafine fine particles that are radioactively harmless and have a low specific density adjustment can be disposed of by three methods.
Part 1: Dilute or release to the ocean as it is.
Part 2: It is converted into water vapor and released into the atmosphere.
Part 3: A radioactively harmless emulsion fuel is formed and used for combustion.
Part 4: Or a combination of these.
When No. 3 and No. 4 are adopted, the raw material water composed of ultrafine fine particles that are harmless to the radioactivity and have a low specific density adjustment is made into one composition and mixed with the raw material oil as the other composition. Therefore, an emulsion fuel source composed of fine particles having a specific density equivalent to that of the raw material oil, which is radioactively harmless and has the low specific density is formed.

Accordingly, another feature of the present invention is to propose a radioactive harmless emulsion fuel forming system for forming a radioactively harmless emulsion fuel having a subcritical water reaction function and a fuel producing function in the form of the emulsion.

In this example, it was explained that tritium is decomposed into neutrons and protons by atomic conversion by the method shown in Fig. 2, but cesium 137 ( ₅₅ Cs ¹³⁷ ) is also morphologically wave-resonated to cause electron-rich xenon atomic radicals (5 Cs 137). It can be converted to ₅₄ Xe ^{137 * +} ) and generate cations (e ⁺ ) in a charge-conservative manner.

Similarly, for iodine-131 ( ₅₃ I ¹³¹ ) with a half-life of about 8 days, it is decomposed as in equations (8) and (9).

γ ＋ ₅₃ I ¹³¹ → ₅₄ Xe ^{131 * ＋} ＋ e- ⁽ 8)

γ ＋ ₅₃ I ¹³¹ → ₅₂ Te ^{131 *-} ＋ e ⁺ (9)

That is, the radioactive element, iodine 131, is decomposed into electron-deficient xenon atomic radicals ( ₅₄ Xe ^{131 * +} ) and electron-rich tellurium atomic radicals ( ₅₂ Te ^{131 *-} ).

By providing the subcritical water reactor, tritium, cesium, and other radioactive substances contained in the ALPS-treated water can be atomically converted and decomposed into harmless ALPS-treated water, and fuel in the form of an emulsion can be produced. It is possible to propose a radioactive harmless emulsion fuel forming system for forming the radioactive harmless emulsion fuel, which comprises an apparatus.

According to the present invention, raw material water reformed by the raw material water treatment apparatus, which consists of fine particles of the same specific gravity and the same micro / nanoscale under the same high temperature and high pressure subcritical or supercritical environment. And the raw material oil reformed by the raw material oil processing apparatus can be mixed to form an emulsion fuel.

According to the present invention, the tritium and neutrino-containing raw material water, which become ultrafine fine particles having a low specific gravity containing tritium, are formed and neutrino-morphological wave resonance is performed to cause the tritium and the neutrino-containing low specific gravity raw material water to form the tritium. Can be decomposed into neutrinos and protons by atomic conversion to form raw material water composed of ultrafine fine particles that are radioactively harmless and have low specific gravity adjustment from the tritium-containing raw material water.

By using the above-mentioned two fuel sources, it is possible to form an emulsion fuel forming system that forms an emulsion fuel without using a surfactant or other activators.

By applying element conversion technology, it is possible to detoxify tritium, which is a radioactive substance contained in raw material water, which is ALPS-treated water, and form raw material water, which is ALPS-treated water containing tritium, as an emulsion fuel. The mixing of the raw water and the raw oil of the combustion fuel causes a separation phenomenon due to the difference in specific gravity between the two, and the emulsification of both is incomplete, preventing the combustion efficiency from decreasing. A radioactive harmless emulsion fuel forming system for forming a harmless emulsion fuel can be provided.

The figure which describes the means of forming a radioactive harmless emulsion fuel. The figure which shows that the subcritical water reactor is used to generate a neutrino, the neutrino is generated, and the radioactive substance tritium is chemically decomposed by atomic conversion. The figure which shows the radioactive harmless emulsion fuel formation system which forms the radioactive harmless emulsion fuel using an emulsion fuel source. The figure which shows the structural example of the raw material water treatment apparatus 1 shown in FIG. The figure which shows the combustion state by a combustion device. The figure which shows the form of the reforming data formation method of a radioactive harmless emulsion fuel. The figure which shows the form of the modification data formation method of the tritium-containing raw material water.

Hereinafter, examples of the present invention will be described with reference to the drawings.

The means for solving the problem has been described with reference to FIGS. 1 and 2.

As shown in FIG. 1, neutrino morphological wave resonance is performed to decompose the tritium in the raw material water containing the tritium and neutrinos having a low specific density into neutrons and protons by atomic conversion.
From the tritium-containing raw material water, a raw material water composed of ultrafine fine particles, which is radioactively harmless and has a low specific density adjustment, is formed.

The raw material water composed of ultrafine fine particles, which is radioactively harmless and has a low specific density adjustment, has a specific gravity equivalent to that of the raw material oil, which is one composition, and is the raw material oil as the other composition. Formed a composition that could be mixed with. By mixing this composition with the feedstock oil as the other composition, an emulsion fuel source composed of fine particles is formed. In forming the emulsion fuel source, a radioactive harmless emulsion fuel forming system as shown in FIG. 3 is used. The radioactive harmless emulsion fuel formation system (fuel generator) uses the emulsion fuel source to form a radioactive harmless emulsion fuel.

FIG. 3 is a diagram showing a radioactive harmless emulsion fuel forming system for forming a radioactive harmless emulsion fuel using the emulsion fuel source.

In FIG. 3, the radioactive harmless emulsion fuel forming system 100 is formed from a raw material water treatment device 1, a raw material oil treatment device 2, and an emulsion fuel generation device 3. A reformed water supply system and a reformed oil supply system are formed from the raw material water treatment device 1 and the raw material oil treatment device 2, and an emulsion generation system is formed.

The emulsion fuel source made of radioactively harmless fine particles formed in the emulsion fuel generation device 3 is introduced into the combustion device 4.

The raw material water 5 is supplied to the raw material water treatment device 1, and the raw material oil 6 is supplied to the raw material oil processing device 2. The raw material water 5 is ALPS-treated water, that is, raw material water containing radioactive tritium, and the raw material oil is a combustion fuel. The raw material water includes tap water containing radioactive tritium, well water, river water, seawater, hard water, soft water, lake water, stored water, and other aqueous solutions. The raw material oil corresponds to base oil (gasoline, kerosene, light oil, heavy oil A, B, C, waste oil).

The raw material water treatment device 1 is formed to include a sub-critical water generation device 10.

The subcritical water generator 10 is a reaction vessel that pressurizes and heats the liquid charged in the reaction vessel to bring it into a subcritical state to generate a reaction phenomenon in the reaction vessel, and a coil wound around the reaction vessel. It is equipped with a magnet means and a current control unit that controls the current flowing through the coil.
It is known as a device that controls the current flowing through the coil by a current control unit, adjusts the temperature and pressure of subcritical water in the reaction vessel by electromagnetic induction heating control, and causes a reaction phenomenon in the reaction vessel.

In the present invention, the sub-critical water generator 10 can be used. The pressure and temperature are related to the water density, that is, the specific gravity, and the specific gravity changes by changing the pressure and temperature.

The sub-critical water generation device 10 includes a sub-critical environment water forming means 11, a raw material water micronization means 12 for generating micro / nanoscale fine particles, a raw material water specific gravity adjusting means 13, and a morphological wave resonance means 14. That is,
The sub-critical water generator 10 has a sub-critical water heat generation function that forms a high-temperature, high-pressure sub-critical environment, a micro-nanoscale fine particle generation means, a raw material water atomization function, a raw material water specific gravity adjustment function, and radioactive tritium. It is configured to have a morphological wave resonance function with a decomposition function.

The raw material oil processing apparatus 2 is formed by comprising a subcritical environmental oil forming means and a raw material oil atomizing means 16 having a miniaturizing function for producing micro / nanoscale fine particles.

The sub-critical water heat generation means 11 forms an environment in a sub-critical state with respect to the raw material water, and forms the tritium-containing raw material water under the environment from the tritium-containing raw material water.

The raw material water micronization means 12 forms ultrafine fine particles from the tritium-containing raw material water to the micro / nanoscale to generate neutrinos, and forms tritium and neutrino-containing raw material water.

The raw material water specific gravity adjusting means 13 adjusts the specific gravity of the tritium- and neutrino-containing raw material water, which becomes ultrafine fine particles by adjusting the pressure and temperature, to a low specific density equal to the specific density of the raw material oil. The current weights of raw water and raw oil are measured and stored in the database. The database stores raw water specific gravity data adjusted according to the measurement data output in the processing mode of the sub-critical water generator 10. The specific gravity data of the reformed raw material oil and the specific gravity data of the raw material water are associated with each other, and the processing numerical values including the pressure and temperature for the operation of the subcritical water generator 10 are used as numerical data as a computer for managing the entire system. It is output from the provided personal computer.

The raw material water fine particle forming means 12 and the raw material water specific gravity adjusting means 13 described above form tritium-containing neutrino-containing raw material water which becomes ultrafine fine particles having a low specific density containing tritium.

The morphological wave resonance means 14 causes neutrino morphological wave resonance to decompose the tritium in the raw material water containing the tritium and neutrinos having a low specific density into neutrons and protons by atomic conversion.

As described above, the sub-critical water generator 10 forms the raw material water composed of ultrafine fine particles which are radioactively harmless and have a low specific density adjustment from the tritium-containing raw material water. This raw material water becomes one composition.

The subcritical environmental oil forming means 15 forms the environment-equivalent raw material oil in the environment equivalent to the environment by using the raw material oil. A raw material oil having a specific gravity that matches the specific gravity adjusted by the raw material water specific gravity adjusting means 13 is formed.

The raw material oil atomizing means 16 collides the raw material oil equivalent to the environment with a high-pressure and high-speed flow in the horizontal and vertical directions to form ultrafine fine particles, and becomes the ultrafine fine particles. Form raw material oil.

The emulsion fuel generation device 3 forms an emulsion fuel by mixing the raw material water composed of fine particles, which is radioactively harmless and has the low specific density adjustment, and the raw material oil which becomes the ultrafine fine particles.

An emulsion fuel source made of radioactively harmless fine particles formed by the emulsion fuel generation device 3 is introduced into the combustion device 4 and burned to obtain heat energy.

FIG. 4 is a diagram showing a configuration example of the raw material water treatment apparatus 1 shown in FIG.

As described above, the raw material water treatment device 1 is formed by including the sub-critical water generation device 10.

The sub-critical water generator 10 includes a reaction vessel 20.

A heating means 21, a pressure loading device 22, a stirring means 23, a magnetic field applying means 24 for applying a magnetic field by a magnet function, and an electrolysis device 25 are provided inside and outside the reaction vessel 20, and a raw material water introducing means 26 and a radioactive harmless emulsion fuel are provided. The take-out means 27 is connected.

A temperature controller 31 is provided to control the heating state of the heating means 21. A pressure controller (not shown) is provided to control the pressure load state of the pressure load device 22.

The stirring means 23 includes a stirring blade 32, and the electrolyzer 25 includes an electrode 33 composed of a positive electrode and a negative electrode.

A sub-critical water-heated environment is formed in the reaction vessel, and a morphological wave resonance region 34 is formed under the environment.

The measuring device 35 is provided, and data indicating the operation state of each of the above-mentioned devices is taken in, and these data are sent to the personal computer 36, and various processes for forming a business model are performed. The personal computer 36 can function as a personal computer provided as a management computer for the entire system.

As described with reference to FIG. 1, a sub-critical water generating means, a raw material water micronization means, a raw material water specific gravity adjusting means, and a sub-critical environmental water forming means are formed in the raw material water treatment apparatus.

The sub-critical water generation means includes a reaction vessel 20 and forms the environment in the reaction vessel.

The raw material water micronization means is formed from the stirring means 23, the magnetic field applying means 24, and the electrolyzer 25 provided along the reaction vessel 20.

The raw material water specific gravity adjusting means has a raw material water specific gravity adjusting function provided in the raw material water micronization means, and forms raw water having a specific gravity equivalent to that of the raw material oil supplied as another composition.

According to the analysis of the inventors,
The subcritical environment water forming means forms a subcritical environment having a high temperature, for example, 100 ° C. to 250 ° C., and a high pressure, for example, 1.0 MPa to 3.0 MPa.
The raw material water specific gravity adjusting means forms tritium-containing low specific density raw material water having a specific gravity equivalent to that of the raw material oil supplied as another composition.

The reformed raw material water formed by the raw material water treatment device 1 is supplied to the emulsion fuel generation device 3 shown in FIG.

In FIG. 1, the emulsion fuel generation device 3 becomes ultrafine fine particles equivalent to the fine particles forming the raw material water having the low specific density and having no radiation harm and the raw material water having the low specific density. The feedstock oil is mixed at a ratio of 30:70 to 70:30 to produce a fuel in the form of an emulsion.

For example, the magnetic field force in the reaction vessel is maintained at 200 to 400 gallons, the multi-stage stirring blade is vibrated at a frequency of 100 to 170 Hz, the DC voltage is set to DC12 V, and the current density is set to 0.5 to 4 A / dm ² . By setting high temperature (100 ° C to 250 ° C) and high pressure (1.0MPa to 3.0MPa), a subcritical hydrothermal environment is formed in the reaction vessel, and under the environment, ultrafine particles down to micro / nanoscale are formed. It is possible to form a morphological wave resonance region of the magnetized fine particles (0.2 to 10 nanometers).

By forming the morphological wave resonance region, it is possible to form a raw material water composed of ultrafine fine particles, which is radioactively harmless and has a low specific density adjustment, from the tritium-containing raw material water.

Under the above environment, the saturated water density, that is, the specific gravity of water can be adjusted by adjusting the pressure in the reaction vessel, the saturation temperature, and the dissolution of hydrogen / oxygen molecules.

By adjusting the raw material water specific density, it is possible to form a tritium-containing low specific gravity raw material water having a specific gravity equivalent to that of the raw material oil of 0.82 to less than 1.0.

By irradiating the raw material water with waves of a specific frequency, neutrino-containing raw material water containing neutrino is formed as fine particles whose particle size is ultrafine, that is, from tritium-containing raw material water to micro / nanoscale. It is possible to form ultrafine fine particles to generate neutrino, and to form modified raw water containing tritium and neutrino, and to stir in the presence of hydrogen and oxygen molecules generated by water splitting. Therefore, the modified raw water having an adjusted specific gravity can be formed from the raw water containing tritium and neutrino.

FIG. 5 is a diagram showing a combustion state by the combustion device.

Combustion by combustor:
-The emulsion fuel in which the ratio of the raw material water of the fine particles to the raw material oil of the fine particles emitted from the supplied raw material oil is 30:70 to 70:30 is burned in the combustion device.
-The combustion device uses a radioactively harmless emulsion fuel in which the ratio of the amount of raw material water of the substantially radioactively harmless fine particles emitted from the raw material water to the amount of raw material oil of the fine particles emitted from the raw material oil is 30:70 to 70:30. Be burned.
-No need to add catalysts, surfactants or other fuel modifiers for combustion.
-It can be burned without losing the energy of the base oil.

The radioactive harmless emulsion fuel formation system is equipped with a reformed water supply system, a reformed oil supply system and an emulsion generation system, and the reformed water supply system uses the atomic conversion decomposition of tritium by morphological wave resonance and the specific gravity of the raw water as raw materials. A raw material oil that has been treated to have the same specific gravity as the oil and reformed raw material water consisting of ultrafine fine particles is supplied, and the raw material oil that has been reformed to the same form as the fine particles of the raw material water supplied to the reformed oil supply system is supplied. It is supplied and the raw material water reformed by the emulsion production system is mixed with the reformed raw material oil to generate an emulsion fuel, and the amount of raw material water of substantially radioactively harmless fine particles emitted into the raw material water and the minute amount emitted into the raw material oil. Achieves combustion of a radioactively harmless emulsion fuel in which the ratio of the particles to the amount of raw material oil is 30:70 to 70:30.

According to the above examples, tritium- and neutrino-containing raw material water, which becomes ultrafine fine particles having a low specific gravity containing tritium, is formed and neutrino-morphological wave resonance is performed in the tritium-containing low specific gravity raw material water. By decomposing the tritium into neutrinos and protons by atomic conversion, it is possible to form a raw material water composed of ultrafine fine particles, which is radioactively harmless and has a low specific gravity adjustment, from the tritium-containing raw material water.

Then, the raw material water composed of ultrafine fine particles, which is harmless to the radioactivity and has a low specific density adjustment, is made into one composition and mixed with the raw material oil as the other composition, and has the same specific density as the raw material oil. It is possible to form an emulsion fuel source composed of fine particles having the specific density of the above, which is radioactive and harmless and has the low specific density. By setting the specific density to the same as the specific gravity of the raw material oil, separation due to the difference in specific gravity is avoided, and when an emulsion fuel source is formed, both compositions are well mixed and emulsification can be made uniform without difficulty.

Then, it is possible to form a radioactive harmless emulsion fuel forming system that forms a radioactively harmless emulsion fuel without using a surfactant or other active agents.

Therefore, by applying element conversion technology, it is possible to detoxify tritium, which is a radioactive substance contained in raw material water, which is ALPS-treated water, and form raw material water, which is ALPS-treated water containing tritium, as an emulsion fuel. It was possible to prevent the mixing of the raw water and the raw oil of the combustion fuel from causing a separation phenomenon due to the difference in specific gravity between the two, resulting in incomplete emulsification of both, resulting in a decrease in combustion efficiency. A radioactive harmless emulsion fuel forming system for forming a radioactively harmless emulsion fuel can be provided.

The emulsion fuel formation system and the radioactive harmless emulsion fuel formation system described above are the reformed data forming method 200 for the emulsion fuel, and the radioactively harmless modified raw water is the reformed data forming method 400 for the tritium-containing raw material water. I will provide a. Any modified data forming method can be formed in the personal computer 36. It may be formed by using another terminal.

FIG. 6 is a diagram showing a method for forming reformed data of an emulsion fuel and a method for forming reformed data of a radioactively harmless emulsion fuel.

A microcomputer is used as a device for processing the data provided by the emulsion fuel forming system 100, and an emulsion fuel reforming data forming device 201, a data acquisition device 202, and an emulsion fuel consideration equivalent calculation device 203 are formed inside the microcomputer. Will be done. The emulsion fuel reforming data forming method 200 is formed by using the emulsion fuel reforming data forming device 201, the data acquisition device 202, and the emulsion fuel consideration equivalent calculation device 203.

The emulsion fuel reforming data forming apparatus 201 includes a reforming water supply system 301 for the reformed raw water, a reforming oil supply system 302 for the reformed raw material oil, and a data supply system for the emulsion fuel supply system. 303 is formed.

About the reformed water supply system 301 ・ Supply to the emulsion fuel generator 3 of the raw material water that has the same specific gravity as the raw material oil that is atomized and supplied and becomes subcritical environment water ・ Tritium atoms by morphological wave resonance Supply of radioactive harmless raw material water to emulsion fuel generation device 3 by conversion decomposition About reformed oil supply system 302 ・ Emulsion fuel generation of reformed oil that has been atomized and is considered to be in an environment equivalent to subcritical environmental water Supply to device 3 Emulsion fuel supply system 303
-Generation of emulsion fuel-Supply of emulsion fuel to combustion device 4 About data acquisition device 202-Amount of raw material water to be supplied, amount of radioactive harmless raw material water, amount of reformed oil supply and amount of emulsion fuel supply Emulsion About fuel consideration equivalent calculation device 203 ・ Emulsion fuel consideration equivalent calculation and emulsion fuel consideration equivalent data formation ・ Radioactive harmless emulsion fuel consideration equivalent calculation and radioactive harmless emulsion fuel consideration equivalent data formation ・ Acquisition Dissemination of information to the outside

In the previous example, as the raw material water treatment device, ultra-fine particles are used using a magnet means that becomes a coil wound around the reaction vessel and a sub-critical water generator equipped with a current control unit that controls the current flowing through the coil. The raw water that becomes the fine particles was produced. A nozzle for injection that uses a high-temperature high-pressure fluid of sub-critical high-temperature high-pressure raw water instead of a sub-critical water generator equipped with a sub-critical environment forming device to generate raw water that becomes ultrafine fine particles. Can also be used to generate micro-nanoscale fine particles. Such a fine particle generation nozzle consists of a nozzle having a discharge hole in the center of the tip and a needle having a constant diameter that holds the central axis of the nozzle inserted therein and penetrates to the discharge hole. It is composed of a fine orifis formed between the outer surfaces to form a high-temperature and high-pressure injection port. Devices that serve as other means may be used to generate raw water that becomes ultrafine particles.

A reforming data forming device for raw material water is configured to be equipped with an emulsion fuel forming system, a measuring device, and an emulsion fuel consideration equivalent calculation device, and forms the reforming data of the emulsion fuel by forming the emulsion fuel. It is a method for forming reformed data of emulsion fuel by a reformed data forming device.
The emulsion fuel forming system comprises a raw material water treatment device, a raw material oil treatment device, and an emulsion fuel generation device, and the raw material water reformed by the raw material water treatment device and the raw material reformed by the raw material oil treatment device. The emulsion fuel is formed from the raw material oil by the emulsion fuel generator.
A process of forming ultrafine fine particles from the supplied raw material water to micro / nanoscale to form the raw material water that becomes the fine particles.
A process for adjusting the specific gravity of the raw material water that becomes fine particles to a low specific density equivalent to the specific gravity of the raw material oil reformed by the raw material oil processing apparatus.
A process of forming ultrafine fine particles from the raw material oil to micro / nanoscale to form the raw material oil that becomes the fine particles.
Emulsion by mixing raw material water reformed by the raw material water treatment device and raw material oil reformed by the raw material oil treatment device, which are composed of fine particles of the same specific gravity and the same micro / nanoscale. Each process of forming fuel is performed.

The measuring device acquires data on the amount of emulsion fuel, which is the volume or weight of the emulsion fuel produced by each treatment.

The emulsion fuel consideration equivalent amount is calculated with reference to the emulsion fuel amount data acquired by the fuel consideration equivalent amount calculation device and the unit price / emulsion fuel amount data stored in advance, and the emulsion fuel consideration equivalent amount data is formed.

The emulsion fuel forming system performs a radioactive detoxification treatment in which the trino and neutrino-containing low specific gravity raw material water are decomposed into neutrons and protons by atomic conversion by causing neutrino morphological wave resonance.

The measuring device acquires data on the amount of radioactive harmless emulsion fuel, which is the volume or weight of the radioactive harmless emulsion fuel produced by each treatment.

The amount equivalent to the radioactive harmless emulsion fuel is calculated by referring to the data on the amount of the radioactive harmless emulsion fuel acquired by the fuel consideration equivalent calculation device and the data on the unit price / emulsion fuel amount stored in advance, and the radioactive harmless emulsion is calculated. Form fuel consideration equivalent data.

FIG. 7 is a diagram showing a method for forming modified data of tritium-containing raw material water.
In FIG. 7, the method for forming modified data of tritium-containing raw material water is configured with the following configuration.

A microcomputer is used as a device for processing the data provided by the emulsion fuel forming system 100, and the tritium-containing raw water reforming data forming device 401, the data acquisition device 402, and the tritium-containing raw material water consideration amount calculation are performed inside the microcomputer. The device 403 is formed. The tritium-containing raw material water reforming data forming method 400 is formed by using the tritium-containing raw material water reforming data forming device 401, the data acquisition device 402, and the tritium-containing raw material water consideration equivalent calculation device 403.

The modified water supply system 301 for the modified raw water is formed in the modified data forming device 401 for the tritium-containing raw material water.

About reformed water supply system 301 ・ Supply to the outside of raw material water that has the same specific gravity as the raw material oil that is atomized and supplied and becomes subcritical environment water Part 1: Diluted or as it is Release to the ocean.
Part 2: It is converted into water vapor and released into the atmosphere.
Part 3: A radioactively harmless emulsion fuel is formed and used for combustion.
Part 4: Or a combination of these.

・ Supply of radioactive harmless raw material water to emulsion fuel generation device 3 by atomic conversion decomposition of tritium by morphological wave resonance About data acquisition device 202 ・ Acquisition of data on the amount of radioactive harmless raw material water Acquisition of tritium-containing raw material water consideration equivalent amount calculation About device 203 ・ Calculation of emulsion fuel price equivalent and formation of emulsion fuel price data ・ Calculation of radioactive harmless emulsion fuel price and formation of radioactive harmless emulsion fuel price data ・ External acquisition information Transmission Tritium-containing raw material water by a tritium-containing raw material water reforming data forming device configured by a tritium-containing raw material water reforming data forming device equipped with a raw material water treatment device, a measuring device, and a modified raw material water consideration equivalent amount calculation device. In the modified data formation method of
The raw material water treatment apparatus includes a critical water generator, and the critical water generator comprises a critical environment water forming means, a raw material water micronization means, and a raw material water specific gravity adjusting means.
A critical environment forming device that forms a high-temperature, high-pressure critical environment, and forms a high-temperature, high-pressure subcritical or supercritical environment, and uses the supplied tritium-containing raw material water as the raw material water under the relevant environment. Treatment to form tritium-containing raw water,
A process of forming ultrafine fine particles from tritium-containing raw water under the environment to micro / nanoscales to form the raw water under the environment that becomes the fine particles.
The specific gravity of the raw material water that becomes fine particles in the environment is adjusted to a low specific density equivalent to the specific gravity of the raw material oil that is reformed by the raw material oil processing apparatus, and the specific gravity of the tritium-containing raw material water that becomes ultrafine fine particles is adjusted. To adjust the low specific density,
A tritium decomposition treatment that decomposes the tritium in the tritium-containing low-density raw material water into neutrons and protons by atomic conversion by causing neutrino morphological wave resonance.
Therefore, in a high-temperature, high-pressure subcritical or supercritical environment, each treatment of forming reformed radioactive harmless raw material water consisting of micro / nanoscale fine particles with low specific density is performed.
The measuring device acquires the water amount data of the radioactively harmlessly modified raw material water, which is the volume or weight of the radioactively harmlessly modified raw material water generated by each treatment.
Radioactivity by referring to the data on the amount of radioactively harmlessly modified raw material water acquired by the modified raw material water consideration amount calculation device and the data on the unit price / radioactivity harmlessly modified raw material water stored in advance. A method for forming reforming data of tritium-containing raw material water, which is characterized by calculating the amount equivalent to the price equivalent to the price of the harmless reforming raw material water and forming the data equivalent to the price equivalent to the radioactive harmless reforming raw material water, is proposed.

100 ... Radioactive harmless emulsion fuel formation system, 1 ... Raw material water treatment device, 2 ... Raw material oil treatment device, 3 ... Emulsion fuel generation device, 4 ... Combustion device, 5 ... Raw material water, 6 ... Raw material oil, 10 ... Subcritical Water generator, 11 ... Subcritical environmental water forming means, 12 ... Raw material water fine particle forming means, 13 ... Raw material water specific gravity adjusting means, 14 ... Morphological wave resonance means, 15 ... Subcritical environmental oil forming means, 16 ... Raw material oil fine particles Chemical means, 20 ... reaction vessel, 21 ... heating means, 22 ... pressure loading device, 23 ... stirring means, 24 ... magnetic field applying means, 25 ... electrolysis device, 26 ... raw water introduction means, 27 ... radioactive harmless emulsion fuel Extraction means, 32 ... stirring blade, 33 ... electrode, 34 ... morphological wave resonance region, 35 ... measuring device, 36 ... personal computer, 200 ... emulsion fuel reforming data forming method, 201 ... emulsion fuel reforming data forming device, 202 ... data acquisition device, 203 ... emulsion fuel consideration equivalent calculation device, 301 ... reformed water supply system, 302 ... reformed oil supply system, 303 ... emulsion fuel supply system, 400 ... reformation data formation of tritium-containing raw water Method, 401 ... Modification data forming device for tritium-containing raw water, 402 ... Data acquisition device, 403 ... Tritium-containing raw water consideration equivalent calculation device.

Claims (10)

It consists of a raw material water treatment device, a raw material oil treatment device, and an emulsion fuel generator, and the emulsion fuel is composed of the raw material water reformed by the raw material water treatment device and the raw material oil reformed by the raw material oil treatment device. An emulsion fuel forming system that forms emulsion fuel with a generator.
The raw water treatment device is equipped with a critical water generator.
The critical water generator includes a means for forming critical environment water, a means for atomizing raw water, and a means for adjusting the specific gravity of raw material water.
The critical environment water forming means includes a critical environment forming device for forming a high temperature / high pressure critical environment, forms a high temperature / high pressure subcritical or supercritical environment, and is a raw material under the environment from the supplied raw water. Forming water,
The raw material water micronization means forms ultrafine fine particles from the raw material water formed by the critical environment water forming means to micro / nanoscale, and forms the raw material water under the environment to be the fine particles. ,
The raw material water specific gravity adjusting means adjusts the specific gravity of the raw material water in the environment of becoming fine particles to a low specific gravity equivalent to the specific gravity of the raw material oil reformed by the raw material oil processing apparatus.
Therefore, the raw material water treatment apparatus forms raw material water under the environment in which particles are formed into fine particles with a low specific density equivalent to the specific gravity of the raw material oil to be reformed.
The raw material oil processing apparatus includes a critical environment oil forming means and a raw material oil fine particle producing means.
The critical environment oil forming means forms a high-temperature / high-pressure subcritical or supercritical environment, and from the supplied raw material water, the raw material oil is formed into a raw material oil having an environment equivalent to that of the environment.
The raw material oil miniaturization device forms ultrafine fine particles from the raw material oil to micro / nanoscale, and forms the raw material oil under the environment to be the fine particles.
Therefore, the raw material oil processing apparatus forms the raw material oil in the environment into fine particles.
The emulsion morphological fuel generator was reformed in the raw water treatment apparatus consisting of the same micro-nanoscale fine particles of the same specific gravity under the same high temperature and high pressure subcritical or supercritical environment. An emulsion fuel forming system characterized by mixing raw water and raw material oil reformed by the raw material oil processing apparatus to form an emulsion fuel.
In the emulsion fuel forming system according to claim 1,
The critical water generator further comprises a morphological wave resonance means having a radioactive tritium decomposition function.
The critical environment water forming means forms the environment in the tritium-containing raw material water, and forms the tritium-containing raw material water under the environment from the tritium-containing raw material water.
The raw material water micronization means forms ultrafine fine particles from the tritium-containing raw material water to micro / nanoscale to generate neutrinos, and forms tritium and neutrino-containing raw material water.
The raw material water specific gravity adjusting means adjusts the specific gravity of the tritium- and neutrino-containing raw material water, which becomes ultrafine fine particles, to a low specific density equal to the specific density of the raw material oil.
The raw material water atomization means and the raw material water specific gravity adjusting means form tritium- and neutrino-containing raw material water which become ultrafine fine particles having a low specific density containing tritium.
The morphological wave resonance means causes neutrino morphological wave resonance to decompose the tritium in the raw material water containing tritium and neutrinos having a low specific density into neutrons and protons by atomic conversion.
Therefore, the raw material water treatment apparatus forms raw material water in the environment from the tritium-containing raw material water, which is radioactively harmless and has a low specific density equivalent to the specific gravity of the raw material oil to be reformed and becomes fine particles.
The emulsion morphological fuel generator was reformed in the raw water treatment apparatus consisting of the same micro-nanoscale fine particles of the same specific gravity under the same high temperature and high pressure subcritical or supercritical environment. An emulsion fuel forming system characterized by mixing radioactively harmless raw material water and raw material oil reformed by the raw material oil processing apparatus to form an emulsion fuel.
In the emulsion fuel forming system according to claim 1 or 2.
The sub-critical water heating device forms a sub-critical environment with a high temperature of 100 ° C to 250 ° C and a high pressure of 1.0 MPa to 3.0 MPa.
The raw material water specific gravity adjusting means forms tritium-containing low specific density raw material water having a specific gravity equivalent to that of the raw material oil.
The raw material oil in which the emulsion-form fuel producing device is radioactively harmless and has a low specific gravity and becomes fine particles equivalent to the fine particles forming the fine particles and the raw water having a low specific gravity. An emulsion fuel forming system, which comprises mixing and in a ratio of 30:70 to 70:30 to produce a fuel in the form of an emulsion.
In the emulsion fuel forming system according to any one of claims 1 to 3.
The sub-critical water heat generation means includes a reaction vessel and forms the environment in the reaction vessel.
The raw material water micronization means is formed from a stirring means, a magnet means and an electrolyzer provided along the reaction vessel.
An emulsion fuel forming system, wherein the raw material water specific gravity adjusting means has a raw material water specific gravity adjusting function provided in the raw material water atomizing means.
It consists of a raw material water treatment device, a raw material oil treatment device, and an emulsion fuel generator, and the emulsion fuel is composed of the raw material water reformed by the raw material water treatment device and the raw material oil reformed by the raw material oil treatment device. An emulsion fuel forming system that forms emulsion fuel with a generator.
The raw material water treatment apparatus includes a raw material water micronization means and a raw material water specific gravity adjusting means.
The raw material water micronization means forms ultrafine fine particles from the supplied raw material water to micro / nanoscale, and forms the raw material water to be the fine particles.
The raw material water specific gravity adjusting means adjusts the specific gravity of the raw material water to be fine particles to a low specific density equivalent to the specific gravity of the raw material oil reformed by the raw material oil processing apparatus.
Therefore, the raw material water treatment apparatus forms raw material water that becomes fine particles with a low specific density equivalent to the specific gravity of the raw material oil to be reformed.
The raw material oil processing apparatus is provided with a raw material oil fine particle generation means.
The raw material oil miniaturization device forms ultrafine fine particles from the raw material oil to micro / nanoscale, and forms the raw material oil to be the fine particles.
Therefore, the raw material oil processing device is used to form raw material oil that becomes fine particles.
The raw material water reformed by the raw material water treatment device and the raw material reformed by the raw material oil treatment device, which are composed of the same micro / nanoscale fine particles with the same specific gravity, in the emulsion form fuel producing device. An emulsion fuel forming system characterized by mixing oil with and forming an emulsion fuel.
It consists of a raw material water treatment device, a raw material oil treatment device, and an emulsion fuel generation device, and the emulsion fuel is composed of the raw material water reformed by the raw material water treatment device and the raw material oil reformed by the raw material oil treatment device. In emulsion fuel formation by an emulsion fuel formation system that forms emulsion fuel with a generator,
The raw water treatment device is equipped with a critical water generator.
The critical water generator includes a means for forming critical environment water, a means for atomizing raw water, and a means for adjusting the specific gravity of raw material water.
The critical environment water forming means includes a critical environment forming device for forming a high temperature / high pressure critical environment, forms a high temperature / high pressure subcritical or supercritical environment, and is a raw material under the environment from the supplied raw water. Forming water,
The raw material water micronization means forms ultrafine fine particles from the raw material water formed by the critical environment water forming means to micro / nanoscale, and forms the raw material water under the environment to be the fine particles. ,
The raw material water specific gravity adjusting means adjusts the specific gravity of the raw material water in the environment of becoming fine particles to a low specific gravity equivalent to the specific gravity of the raw material oil reformed by the raw material oil processing apparatus.
Therefore, the raw material water treatment apparatus forms raw material water under the environment in which particles are formed into fine particles with a low specific density equivalent to the specific gravity of the raw material oil to be reformed.
The raw material oil processing apparatus includes a critical environment oil forming means and a raw material oil fine particle producing means.
The critical environment oil forming means forms a high-temperature / high-pressure subcritical or supercritical environment, and from the supplied raw material water, the raw material oil is formed into a raw material oil having an environment equivalent to that of the environment.
The raw material oil miniaturization device forms ultrafine fine particles from the raw material oil to micro / nanoscale, and forms the raw material oil under the environment to be the fine particles.
Therefore, the raw material oil processing apparatus forms the raw material oil in the environment into fine particles.
The emulsion morphological fuel generator was reformed in the raw water treatment apparatus consisting of the same micro-nanoscale fine particles of the same specific gravity under the same high temperature and high pressure subcritical or supercritical environment. A method for forming an emulsion fuel by an emulsion fuel forming system, which comprises mixing raw water and raw material oil reformed by the raw material oil processing apparatus to form an emulsion fuel.
In the emulsion fuel forming method by the emulsion fuel forming system according to claim 6,
The critical water generator further comprises a morphological wave resonance means having a radioactive tritium decomposition function.
The critical environment water forming means forms the environment in the tritium-containing raw material water, and forms the tritium-containing raw material water under the environment from the tritium-containing raw material water.
The raw material water micronization means forms ultrafine fine particles from the tritium-containing raw material water to micro / nanoscale to generate neutrinos, and forms tritium and neutrino-containing raw material water.
The raw material water specific gravity adjusting means adjusts the specific gravity of the tritium- and neutrino-containing raw material water, which becomes ultrafine fine particles, to a low specific density equal to the specific density of the raw material oil.
The raw material water atomization means and the raw material water specific gravity adjusting means form tritium-containing raw material water which becomes ultrafine fine particles having a low specific density containing tritium.
The morphological wave resonance means causes neutrino morphological wave resonance to decompose the tritium in the tritium-containing low-density raw material water into neutrons and protons by atomic conversion.
Therefore, the raw material water treatment apparatus forms raw material water in the environment from the tritium-containing raw material water, which is radioactively harmless and has a low specific density equivalent to the specific gravity of the raw material oil to be reformed and becomes fine particles.
The emulsion form fuel generator was reformed in the raw water treatment apparatus consisting of the same micro-nanoscale fine particles of the same specific gravity under the same high temperature and high pressure subcritical or supercritical environment. A method for forming an emulsion fuel by an emulsion fuel forming system, which comprises mixing radioactively harmless raw material water and raw material oil reformed by the raw material oil processing apparatus to form an emulsion fuel.
A reforming data forming device for raw material water is configured to be equipped with an emulsion fuel forming system, a measuring device, and an emulsion fuel consideration equivalent calculation device, and forms the reforming data of the emulsion fuel by forming the emulsion fuel. It is a method for forming reformed data of emulsion fuel by a reformed data forming device.
The emulsion fuel forming system comprises a raw material water treatment device, a raw material oil treatment device, and an emulsion fuel generation device, and the raw material water reformed by the raw material water treatment device and the raw material reformed by the raw material oil treatment device. The emulsion fuel is formed from the raw material oil by the emulsion fuel generator.
A process of forming ultrafine fine particles from the supplied raw material water to micro / nanoscale to form the raw material water that becomes the fine particles.
A process for adjusting the specific gravity of the raw material water that becomes fine particles to a low specific density equivalent to the specific gravity of the raw material oil reformed by the raw material oil processing apparatus.
A process of forming ultrafine fine particles from the raw material oil to micro / nanoscale to form the raw material oil that becomes the fine particles.
Emulsion by mixing raw material water reformed by the raw material water treatment device and raw material oil reformed by the raw material oil treatment device, which are composed of fine particles of the same specific gravity and the same micro / nanoscale. Processing to form fuel,
Perform each process of
The measuring device acquires data on the amount of emulsion fuel, which is the volume or weight of the emulsion fuel produced by each treatment.
The emulsion fuel consideration equivalent amount is calculated by referring to the emulsion fuel amount data acquired by the fuel consideration equivalent amount calculation device and the unit price / emulsion fuel amount data stored in advance, and the emulsion fuel consideration equivalent amount data is formed. A method for forming reformed data of an emulsion fuel.
In the method for forming reformed data of an emulsion fuel according to claim 8.
The emulsion fuel forming system performs a radioactive detoxification treatment that decomposes the tritium into neutrons and protons by atomic conversion in the raw material water containing neutrinos and neutrinos having a low specific gravity by resonating with neutrino morphology.
The measuring device acquires data on the amount of radioactive harmless emulsion fuel, which is the volume or weight of the radioactive harmless emulsion fuel produced by each treatment.
The amount equivalent to the radioactive harmless emulsion fuel is calculated by referring to the data on the amount of the radioactive harmless emulsion fuel acquired by the fuel consideration equivalent calculation device and the data on the unit price / emulsion fuel amount stored in advance, and the radioactive harmless emulsion is calculated. A method for forming reformed data of an emulsion fuel, which comprises forming data equivalent to fuel consideration.
Tritium-containing raw material water by a tritium-containing raw material water reforming data forming device configured by a tritium-containing raw material water reforming data forming device equipped with a raw material water treatment device, a measuring device, and a modified raw material water consideration equivalent amount calculation device. In the reformed data formation method
The raw material water treatment apparatus includes a critical water generator, and the critical water generator comprises a critical environment water forming means, a raw material water micronization means, and a raw material water specific gravity adjusting means.
A critical environment forming device that forms a high-temperature, high-pressure critical environment, and forms a high-temperature, high-pressure subcritical or supercritical environment, and uses the supplied tritium-containing raw material water as the raw material water under the relevant environment. Treatment to form tritium-containing raw water,
A process of forming ultrafine fine particles from tritium-containing raw water under the environment to micro / nanoscales to form the raw water under the environment that becomes the fine particles.
The specific gravity of the raw material water that becomes fine particles in the environment is adjusted to a low specific density equivalent to the specific gravity of the raw material oil that is reformed by the raw material oil processing apparatus, and the specific gravity of the tritium-containing raw material water that becomes ultrafine fine particles is adjusted. To adjust the low specific density,
A tritium decomposition treatment that decomposes the tritium in the tritium-containing low-density raw material water into neutrons and protons by atomic conversion by causing neutrino morphological wave resonance.
Therefore, in a high-temperature, high-pressure subcritical or supercritical environment, a treatment to form reformed, radioactively harmless raw material water consisting of micro / nanoscale fine particles with low specific density.
Perform each process of
The measuring device acquires the water amount data of the radioactively harmlessly modified raw material water, which is the volume or weight of the radioactively harmlessly modified raw material water generated by each treatment.
Radioactivity by referring to the data on the amount of radioactively harmlessly modified raw material water acquired by the modified raw material water consideration amount calculation device and the data on the unit price / radioactivity harmlessly modified raw material water stored in advance. A method for forming reformation data of tritium-containing raw material water, which comprises calculating the amount equivalent to the price equivalent to the harmless reformed raw material water and forming the data equivalent to the price equivalent to the radioactive harmless reformed raw material water.

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