WO2016161940A1 - Liquid fuel - Google Patents

Abstract

Provided is a liquid fuel, which is extracted from seawater and comprises the element deuterium. The total amount of dissolved solids is equal to or larger than 30,000 milligrams/liter. Whether or not the total content of the deuterium element in a seawater concentrated solution reaches a preset value is judged by measuring the TDS value in the seawater concentrated solution, and if the preset value is reached, the seawater concentrated solution can be used as a liquid fuel. The liquid fuel has the following features: there is no pollution, no by-products and no radiation in the reaction; and the following advantages: deuterium atoms are cracked by a cold fusion reaction and release energy, the energy conversion rate is high, same can be sourced widely and the extraction process is simple, etc. The liquid fuel can be widely used in fields such as nuclear power automobiles, airplanes, ships and power plants, phases out existing gasoline and diesel cars, solves the environmental problem of coal power pollution and is a big breakthrough in terms of energy exploitation.

Description

Liquid fuel Technical field

This invention relates to fuels, particularly liquid fuels extracted from seawater.

Background technique

The development and innovation of energy is a worldwide problem. At present, the energy that has been developed and utilized by people is oil, coal, ore, solar energy, water power, wind power, etc. The main applications are deep-seated resources such as oil and coal. At the end of the day, and the burning and use of hundreds of years, it also brought a lot of waste gas pollution to the whole earth, and brought more environmental pollution to the natural world while utilizing the resources of nature.

It is scientifically discovered that the sun is a star that continuously undergoes a thermonuclear reaction. It relies on the uninterrupted generation of a nuclear reaction by helium atoms, which generates a large amount of light and heat, which is sent to the stars of the solar system. At the same time, it carries a large number of solar winds. The helium atom forms cosmic dust and is emitted to the universe. Helium atom is a kind of high-energy particle hydrogen isotope. It is the best fuel for nuclear fusion. Most of the helium atoms brought by the solar wind to the earth are scattered on the sea. After hundreds of millions of years of accumulation, The stock of thorium atoms in the ocean is already huge. How to use marine resources and find environmentally friendly energy is a major issue for scientists all over the world.

Summary of the invention

The present invention provides a liquid fuel which is extracted from seawater, separates fresh water from seawater, concentrates cesium ions in seawater, and extracts the desired liquid fuel from seawater.

In order to achieve the above object, the present invention provides a liquid fuel which is extracted from seawater and contains barium, and the total amount of dissolved solids (TDS value) is equal to or more than 30,000 mg/liter, which is determined by measuring seawater concentration. The TDS value in the liquid determines whether the total content of lanthanum in the concentrate reaches the set value, and when the set value is reached, the seawater concentrate can be used as a liquid fuel. Preferably, the total amount of the dissolved solids is equal to or greater than 40,000 mg/liter.

Since the liquid fuel is extracted from seawater, the alkalinity is large, the pH value is greater than 50, preferably the pH value is 50-80, and NaOH is also appropriately added to adjust the pH value in the seawater concentrate to make it thick. Alkaline.

Wherein, the liquid fuel contains cerium ions, and the liquid fuel further contains cerium oxide, and the content of cerium ions is increased by adding cerium oxide (D ₂ O) to promote the collision of cerium ions to cause fission. Acts as a catalyst. The liquid fuel undergoes a cracking reaction under electrolysis or electric field conditions and is converted into energy.

Wherein, the total weight ratio of the cesium ions to the liquid fuel is 0.01 ‰ to 0.1 ‰, and preferably, the total weight ratio of the cesium ions to the liquid fuel is 0.03 ‰ to 0.5 ‰.

Wherein, the liquid fuel contains a metal salt, and the metal salt includes magnesium chloride, sodium chloride, and silicon dioxide.

Compared with the prior art, the liquid fuel of the present invention discovers the abundant strontium atom content in seawater by fully utilizing sea water resources, and utilizes reverse osmosis technology to separate fresh water in seawater and extract strontium atoms. Sea water thick Obtained from the shrinkage. The ruthenium atom in the seawater concentrate is the best raw material for the nuclear reaction. When the dissolved solid content reaches a certain value, the cesium atom concentration reaches the standard of the liquid fuel. The liquid fuel of the present invention has the following advantages:

1. The reaction is non-polluting, no by-products, no radiation. The liquid fuel of the present invention is refined from seawater, and promotes the cold fusion reaction of the helium atom under the electrolysis or electric field environment under normal temperature conditions, and the crack is released to release energy. There is no waste gas waste generated in the process, zero emissions, and will not pollute the environment. This is the biggest advantage compared with traditional energy sources such as oil and coal, and solves the problem of global environmental pollution;

2. The energy conversion rate is high. Compared with the petroleum fuel, it has been found through experiments that if the energy released by complete combustion of 1 liter of gasoline is 3.23×10 ⁷ joules, the energy of complete conversion of 1 liter of liquid fuel is about 9.82×10. ⁹ joules, 1 liter of liquid fuel of the invention is equivalent to the energy conversion rate of 300 liters of gasoline. It can be seen that the energy released is hundreds of times that of petroleum. It is an excellent energy source to replace traditional energy. It can be applied to nuclear power vehicles, airplanes and ships. In the fields of power plants and other fields, phasing out existing gasoline and diesel vehicles and solving environmental problems caused by coal and electricity pollution is a major breakthrough in energy development.

3. Wide source of energy and simple extraction process. The solar wind transmits tens of thousands of tons of helium atoms to the earth every day. Using marine resources, helium atoms are extracted from seawater, and the seawater is separated by fresh water by reverse osmosis technology. The seawater concentrate rich in helium atoms is used as a fuel. The different energy sources such as ore, oil, coal and firepower are inexhaustible renewable energy sources, which have found a new breakthrough area for human beings to find renewable energy.

detailed description

In order to effectively utilize the strontium element in seawater, the seawater separation containing strontium atoms is concentrated and extracted by multiple filtration and reverse osmosis processes, which can be used as a highly efficient liquid fuel to release huge energy through nuclear fusion reaction, replacing the traditions of petroleum and coal. Energy, get a new kind of environmentally friendly energy.

The liquid fuel of the present invention is extracted from seawater, which contains strontium element, and the strontium element exists in the form of cesium atom or strontium ion. The core active component is cerium oxide, and the molecular formula D ₂ O has a molecular weight of 20.0275, which is higher than ordinary water (H _{2 ).} O) has a molecular weight of 18.0153 which is about 11% higher. Cerium oxide is also called heavy water, and hydrazine is an isotope of hydrogen, which can be used as a raw material for nuclear reaction. The extracted seawater concentrate was subjected to TDS detection by a TDS detector, and the total amount of various dissolved mineral salts contained in the water, including the total amount of inorganic salts and organic substances, was measured by detecting the TDS value in the seawater concentrate. When the total amount of dissolved solids (TDS value) is measured to be equal to or greater than 30,000 mg/liter, the desired liquid fuel can be obtained. Preferably, the total amount of the dissolved solids is equal to or greater than 40,000 mg/liter.

The liquid fuel is extracted from seawater, so its pH is relatively large, and it is richly alkaline. Its pH value is greater than 50, preferably pH is 50-80. It is also possible to increase the pH by adding an appropriate amount of NaOH. In order to increase the weight ratio of cerium element in liquid fuel, an appropriate amount of cerium oxide may be added. For example, 10 to 100 ml of cerium oxide may be added to 1 liter of seawater as a catalyst to increase the weight ratio of cerium element, thereby promoting fuel conversion efficiency. The content of the cerium ions in the liquid fuel is detected, wherein the total weight ratio of the cerium ions to the liquid fuel is 0.01 ‰ to 0.1 ‰, preferably, the total weight ratio of the cerium ions to the liquid fuel is 0.03 ‰. 0.5‰.

Wherein the liquid fuel is refined from seawater, and further comprises various metal salts in seawater, the metal salts including magnesium chloride, sodium chloride, silicon dioxide, various heavy metal salts, etc., which account for liquid fuel The weight ratio is about 70%.

The liquid fuel of the present invention can undergo a cracking reaction under electrolysis or electric field conditions and is converted into energy. Electrolysis is carried out by energizing the positive and negative electrodes, which can ionize the ion, generate heat in the polarization reaction; generate cold fusion under the electric field environment of high-frequency current, and can not accommodate two germanium atoms in the lattice of some atoms. The principle of using electrolysis or electric field to introduce two deuterium atoms into the crystal lattice of other metals. The interior of these crystal lattices is too crowded, forcing two helium atoms to hug. When the hug distance is less than the femtoscale level, Produces fusion while releasing huge amounts of energy. At the same time, when the helium atom is in the plasma state, it will receive the influence of the electric field. With the frequency of the electric field, it will rotate or jump regularly, and will generate a collision, generating heat. Since the heat cannot be emitted, when a certain temperature is reached, Will produce fusion and release energy. The liquid fuel of the invention can cause the helium atoms to collide with each other to generate heat under the condition of electrolysis or electric field, the heat can not be dissipated, and gradually rises to a certain temperature, cold fusion occurs, and heat is converted into heat or heat in the fusion reaction. Transfer it out. The liquid fuel can be heat-converted under cold fusion conditions, has low requirements on equipment, and has a small volume. It can be customized according to actual needs, has high safety, and can be widely used in automobiles, power generation, aircraft, and the future. Transportation areas such as ships.

The liquid fuel of the present invention has the following advantages:

1. The reaction is non-polluting, no by-products, no radiation. The liquid fuel of the present invention is refined from seawater, and promotes the cold fusion reaction of the helium atom under the electrolysis or electric field environment under normal temperature conditions, and the crack is released to release energy. There is no waste gas waste generated in the process, zero emissions, and will not pollute the environment. This is the biggest advantage compared with traditional energy sources such as oil and coal, and solves the problem of global environmental pollution;

2. The energy conversion rate is high. Compared with the petroleum fuel, it has been found through experiments that if the energy released by complete combustion of 1 liter of gasoline is 3.23×10 ⁷ joules, the energy of complete conversion of 1 liter of liquid fuel is about 9.82×10. ⁹ joules, 1 liter of liquid fuel of the invention is equivalent to the energy conversion rate of 300 liters of gasoline. It can be seen that the energy released is hundreds of times that of petroleum. It is an excellent energy source to replace traditional energy. It can be applied to nuclear power vehicles, airplanes and ships. In the fields of power plants and other fields, the existing gasoline and diesel vehicles will be phased out to solve the environmental problems of coal and electricity pollution.

3. Wide source of energy and simple extraction process. The solar wind transmits tens of thousands of tons of helium atoms to the earth every day. Using marine resources, helium atoms are extracted from seawater, and the seawater is separated by fresh water by reverse osmosis technology. The seawater concentrate rich in helium atoms is used as a fuel. The different energy sources such as ore and oil are inexhaustible renewable energy sources, which have found a new breakthrough area for human beings to find renewable energy.

Claims (10)

1. A liquid fuel characterized in that it is extracted from seawater and contains barium, and the total amount of dissolved solids (TDS value) is equal to or greater than 30,000 mg/liter.
2. The liquid fuel according to claim 1, wherein the total amount of the dissolved solids is equal to or greater than 40,000 mg/liter.
3. A liquid fuel according to claim 1 wherein said pH is greater than 50.
4. The liquid fuel according to claim 3, wherein said pH is 50-80.
5. The liquid fuel according to claim 3, wherein the liquid fuel contains barium ions.
6. The liquid fuel according to claim 5, wherein said liquid fuel further comprises cerium oxide.
7. The liquid fuel according to claim 5, wherein the total weight ratio of the cerium ions to the liquid fuel is from 0.01 Å to 0.1 Torr.
8. The liquid fuel according to claim 7, wherein the total weight ratio of the cerium ions to the liquid fuel is from 0.03 Å to 0.5 Torr.
9. The liquid fuel according to claim 5, wherein said liquid fuel contains a metal salt, and said metal salt comprises magnesium chloride, sodium chloride, and silica.
10. The liquid fuel according to claim 1, wherein the liquid fuel undergoes a cracking reaction under electrolysis or electric field conditions and is converted into energy.