CN211455722U - Barium-based battery - Google Patents

Abstract

The utility model discloses a barium-based battery, belonging to the technical field of electric power energy, comprising a battery main body, wherein one surface of the battery main body is made of non-barium metal to form a negative electrode of the battery; the other surface of the battery main body is made of metal barium, the outer surface of the metal barium is provided with a conductive material connected under an electrical communication condition, and the conductive material forms the anode of the battery. The working process of the utility model has no carbon emission; meanwhile, no machine runs, so that no noise exists; the maintenance is very convenient; the materials needed are easy to obtain and the manufacturing cost is low. The barium-based battery provided by the utility model can convert the heat energy transferred by the surrounding objects into electric energy, and can also convert the electric energy related to the current into heat energy (the heat energy is non-joule-lenz heat energy) and transfer the heat energy to the surrounding objects. Utilize the utility model discloses can overcome wind energy, solar energy power generation's a series of defects.

Description

Barium-based battery

Technical Field

The utility model belongs to the technical field of the electric power energy, especially, relate to a barium-based battery.

Background

The growing energy crisis problem and global warming problem have seriously affected human survival and development.

People have been keen on two clean energy sources, namely wind power generation and solar photovoltaic power generation, and the popularization and popularization of the clean energy sources are considered to be possible to overcome the energy crisis and restrain climate warming. However, the history of development of wind power generation and solar photovoltaic power generation has been disappointed for decades. First, both of these power generation systems are highly unstable due to variations in climate, day and night, and the like. When both types of electrical energy enter the national power grid, they can have a severe impact on the stability of the power grid. Secondly, the construction cost of the unit power generation amount of the two power generation devices is high, and the governments of various countries have to make financial subsidies on the power generation devices. Therefore, both of these power generation technologies are far from being able to fundamentally solve the energy crisis problem and the climate warming problem for human beings.

Therefore, it is gradually recognized that new clean energy varieties must be additionally sought.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that to above-mentioned prior art not enough, provide a barium base battery, can realize "the zero release of carbon", can overcome wind energy, solar energy power generation's a series of defects.

In order to solve the technical problem, the utility model discloses the technical scheme who takes is:

a barium-based battery comprises a battery main body, wherein one surface of the battery main body is made of non-barium metal to form a negative electrode of the battery; the other surface of the battery main body is made of metal barium, the outer surface of the metal barium is provided with a conductive material connected under an electrical communication condition, and the conductive material forms the anode of the battery.

Preferably, the battery body is a non-barium metal sheet, and metal barium obtained by depositing metal barium vapor is provided on one surface of the metal sheet.

Furthermore, the metal sheet is a copper sheet, one surface of the copper sheet is deposited with metal barium vapor, and the other surface of the copper sheet, on which no metal barium is deposited, is a negative electrode of the battery.

Preferably, the battery body is formed by overlapping two metal sheets, one metal sheet is a barium sheet, and the other metal sheet is a non-barium metal sheet.

Furthermore, the non-barium metal sheet is a copper sheet, and the non-overlapped surface of the copper sheet is the negative electrode of the battery.

Preferably, the conductive material is a brass alloy.

Adopt the produced beneficial effect of above-mentioned technical scheme to lie in: compared with the prior art, the carbon emission does not exist in the manufacturing process and the working process of the utility model; meanwhile, no machine runs, so that no noise exists; the maintenance is very convenient; the materials needed are easy to obtain and the manufacturing cost is low. The barium-based battery provided by the utility model can convert the heat energy transferred by the surrounding objects into electric energy, the temperature of the atmosphere and the objects on the earth and the ground can be reduced to a certain extent according to physics, and the power generation process is equivalent to the energy conversion process of 'negative emission of carbon'; it is also possible to transfer the electrical energy associated with the electrical current to a surrounding object by converting the electrical energy to thermal energy (which is a non-joule-lenz thermal energy). Utilize the utility model discloses can overcome wind energy, solar energy power generation's a series of defects.

Drawings

Fig. 1 is a schematic structural diagram of a barium-based battery according to an embodiment of the present invention;

in the figure: 1-copper sheet, 2-barium sheet, 3-negative electrode, 4-brass alloy sheet and 5-positive electrode.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, the present invention provides a barium-based battery, which comprises a battery main body of the barium-based battery, wherein one surface of the battery main body is a non-barium metal to form a negative electrode 3 of the battery; the other surface of the battery main body is made of metal barium, the outer surface of the metal barium is provided with a conductive material connected under an electrical communication condition, and the conductive material forms a positive electrode 5 of the battery. The conductive material can be electrically connected with the battery body by welding or other methods.

In a specific embodiment of the present invention, the battery body is a metal sheet other than barium, and a surface of the metal sheet is provided with metal barium obtained by depositing metal barium vapor. The metal sheet is a copper sheet, one surface of the copper sheet is deposited with metal barium vapor, and the other surface of the copper sheet without deposited metal barium is a cathode 3 of the battery.

Further optimizing the technical scheme, the conductive material is brass alloy.

In another embodiment of the present invention, as shown in fig. 1, the battery main body is obtained by overlapping two metal sheets, one metal sheet is a barium sheet 2, and the other metal sheet is a non-barium metal sheet. The non-barium metal sheet is a copper sheet 1, the non-overlapped surface of the copper sheet 1 is a cathode 3 of the battery, and a brass alloy sheet 4 is connected to the outer surface of the barium sheet 2 under the condition of electrical communication to form an anode 5 of the battery. In FIG. 1, I represents a current, + is positive and-is negative.

The barium-based battery shown in fig. 1 is fabricated as follows: depositing vapor of metal barium on one surface of a metal copper sheet 1 to form a battery body to construct a barium-based battery, wherein the non-deposited surface of the metal copper sheet 1 is used as a negative electrode 3 of the barium-based battery; on the outer surface deposited with the metal barium, a brass alloy sheet 4 is connected under electrical communication conditions, and the brass alloy sheet 4 is used as a positive electrode 5 of the barium-based battery.

Or another metal copper sheet 1 and another metal barium sheet 2 are overlapped to construct the barium-based battery; taking the non-overlapped surface of the other metal copper sheet 1 as the negative electrode 3 of the barium-based battery; on the non-overlapped surface of another metal barium sheet 2, a brass alloy sheet 4 is connected under electrical communication, and the brass alloy sheet 4 is used as the positive electrode 5 of the barium-based battery.

If the current I flowing through the barium-based battery flows from the negative electrode 3 to the positive electrode 5, the barium-based battery converts the heat energy transferred by the surrounding objects into electric energy; on the contrary, if the current I flows from the positive electrode 5 to the negative electrode 3, the barium-based battery converts electric energy associated with the current into thermal energy to be transferred to the surrounding objects. Obviously, if the direction of the current I flowing through the barium-based battery is not changed and the positions of the positive electrode or the negative electrode are exchanged, similar results will be generated, and the description is omitted.

The working principle of the utility model is as follows:

the evolution potential of metallic copper is 4.65eV (electron volts) and that of metallic barium is 2.7 eV. A contact potential difference of 1.95eV is produced across the interface between copper and barium, with the result that barium is positively charged and the copper is negatively charged (see figure 1). The electric field strength of the constant electric field formed by the contact potential difference is provided by a thermodynamic system consisting of free electrons which are directionally moved to form current and the direction of the electric field is opposite to that of the electric field. The heat of the thermodynamic system can be converted into electric energy of free electrons, and vice versa (obviously, the heat energy is different from joule-lenz heat energy generated when current flows through a resistor in nature, and is not joule-lenz heat energy).

In addition, when the barium-based battery is in a power generation state, the barium-based battery converts the internal heat into electric energy, so that the temperature of the barium-based battery is reduced, and surrounding objects can continuously transfer the heat to the barium-based battery; on the contrary, when the barium-based battery is in a power-consuming state, the barium-based battery converts electric energy related to current passing through the barium-based battery into heat inside the barium-based battery, and thus the temperature of the barium-based battery rises, so that the barium-based battery continuously transfers the heat to surrounding objects.

According to physics, the interconversion between non-electrical and electrical energy within various power sources "depends only on the nature of the power source itself, and is independent of the external circuit. This indicates that the interconversion process between non-electrical (thermal) and electrical energy within the barium-based battery is independent of the temperature of the external circuit of the battery.

It can be seen that the utility model provides a barium-based battery can realize the reversible conversion of heat energy and electric energy, belongs to green's new generation clean energy variety, has very big economic benefits and social.

To sum up, compare with prior art, the beneficial effects of the utility model are that:

first, the utility model discloses a manufacturing process and working process do not all have the emission of carbon. The electricity generated by the battery does not discharge any heat to the outside, but in turn absorbs heat from the atmosphere and various objects on the earth's surface. Thus, the temperature of the atmosphere and the earth's surface objects will drop to some extent according to physics. Therefore, the power generation process of the barium-based battery is equivalent to an energy conversion process of "negative emission of carbon". This is well beyond the expectations of renewable energy sources that are expected to achieve "zero carbon emissions".

Secondly, the utility model has no mechanical operation, so the utility model has no noise; the maintenance is also very convenient. The device does not need a special heat source (used for supplying heat) and a special cold source (used for discharging heat), namely, the device can be operated under non-temperature difference conditions. The operation of the device does not need specific conditions such as light, magnetic field and the like, and has no special requirement on the environmental temperature range. 24 hours per day, whether cloudy or rainy; the air conditioner can stably run on the inner wall and the outer wall of a building no matter on the ground, underwater or high altitude, no matter in normal temperature, high temperature or low temperature environment. Thus, its access to the utility power grid does not have any effect on the stability of the operation of the power grid. Namely, it overcomes a series of defects of wind energy and solar energy power generation.

Thirdly, the materials needed for manufacturing the utility model, such as metallic copper, are common electric materials, the compound of barium is abundant on the earth surface, and the process for extracting the metallic barium is not complicated. The high-quality barium-based battery can be manufactured by applying a process which is much simpler than that for manufacturing wind energy and solar photovoltaic batteries. Therefore, the manufacturing cost of the barium-based battery is much lower than that of the wind energy and photovoltaic battery.

Fourthly, the utility model can convert the heat energy transferred by the surrounding objects into electric energy; the electrical energy associated with the electrical current may be converted to thermal energy (which is non-joule-lenz thermal energy) for transfer to a surrounding object.

The principles and embodiments of the present invention have been explained herein using specific examples, and the above descriptions of the embodiments are only used to help understand the method and its core ideas of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (6)

1. A barium-based battery, characterized by: the battery comprises a battery main body of a barium-based battery, wherein one surface of the battery main body is made of non-barium metal to form a negative electrode of the barium-based battery; the other surface of the battery main body is made of metal barium, the outer surface of the metal barium is provided with a conductive material connected under an electrical communication condition, and the conductive material forms the positive electrode of the barium-based battery.

2. The barium-based battery of claim 1, wherein: the battery main body is a non-barium metal sheet, and metal barium obtained by depositing metal barium vapor is arranged on one surface of the non-barium metal sheet.

3. The barium-based battery of claim 2, wherein: the non-barium metal sheet is a copper sheet, metal barium vapor is deposited on one surface of the copper sheet, and the other surface of the copper sheet, on which metal barium is not deposited, is a negative electrode of the battery.

4. The barium-based battery of claim 1, wherein: the battery main body is formed by overlapping two metal sheets, wherein one metal sheet is a barium sheet, and the other metal sheet is a non-barium metal sheet.

5. The barium-based battery of claim 4, wherein: the non-barium metal sheet is a copper sheet, and the non-overlapped surface of the copper sheet is the negative electrode of the battery.

6. The barium-based battery of any one of claims 1-5, wherein: the conductive material is a brass alloy.

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