Background
Under microscopic conditions, there is a stable dynamic electron orbit (Bohr), the electrons move around the nucleus randomly, and when the velocity of the electrons reaches the speed of light, the energy wavelength of the electrons will be greater than the Compton wavelength 2.4263102367 (11). times.10-12m, electrons of any element change the original electron Bohr orbit when rotating at a speed not lower than 513.6725m/s, which makes it possible to give energy to the electrons, when the device is operated at high speed, the electrons in any element can resonate by adjusting the frequency, the tuning frequency of the electron of the element is obtained by integrating the frequency, the energy can be transferred between substances with different properties, and the influence of the dynamic electron orbit on the electrons is quantifiable and in phase.
Any chemical element can create a stable electron motion trajectory by:
X1513.6725(m/s) is the acceleration of any chemical element electron in steady state;
D11/274 π Y (m) is the radius of the electron orbit of any chemical element in said stable state, where Y is the number of the elements in the mixture according to the Mendeleev's periodic table;
Z1=9.8292352*58the/Y (rpm) is the number of electron revolutions of any chemical element in steady state.
The prior art has disclosed a method for reducing the viscosity of crude oil by ultrasonic techniques, which is analyzed by the mechanism of cavitation, mechanical vibration and thermal effects when ultrasonic waves are propagated in a liquid medium.
However, the prior art has the following disadvantages:
1. the specific element level can not be accurately positioned, so that the possibility of selectively extracting the specific element is reduced;
2. the inability to provide exact criteria for altering the molecular structure and to determine whether it alters the molecular structure as a physical reaction or a chemical reaction reduces the possibility of standard customization;
3. at present, the data records are laboratory data only verified in a laboratory, no field actual operation data support exists, and large-scale industrial verification does not exist, so that the possibility of actual application conversion is reduced;
4. at present, the data support verified in any form of physical state of solid, gas and mixture thereof is lacked only in liquid level verification, so that the possibility of effective application in other fields is reduced.
Disclosure of Invention
In order to solve the defects of the technology, the invention provides a device and a method for generating electron accelerated waves through cavitation resonance to change a molecular structure.
In order to solve the technical problems, the invention adopts the technical scheme that: the utility model provides a device that changes molecular structure through cavitation resonance generation electron acceleration wave, including resonance shaft and base, be connected with the little cavity of cavitation on the base, the resonance shaft run through the inside of the little cavity of cavitation and through machine seal sealing connection between the little cavity of cavitation, be provided with the resonance wheel in the little cavity of cavitation, be provided with the recess on the resonance wheel, release through the recess clearance after being used for the mixture feeding to the device processing, the periphery of resonance wheel is provided with the resonance ring, it needs the rotational speed to be used for building the resonance place, the entry has been seted up on the shell of cavitation little cavity right-hand member, the export has been seted up on the shell on cavitation little cavity top, the setting of access & exit is relevant with the mixture state of feeding, entry and export all are linked together with the little cavity of cavitation is inside, be provided with the valve of intercommunication export and cavitation little cavity simultaneously at the homonymy of export.
Further, the cavitation micro-cavity is turbine-shaped.
Further, the resonance wheels comprise a plurality of resonance wheels which are uniformly distributed in the cavitation micro-cavity.
Further, the grooves comprise a plurality of grooves which are uniformly distributed on the resonance wheel.
Furthermore, the valve is arranged at the top of the cavitation micro-cavity, one or more valves are arranged, the outlet and the valve are positioned at the same side, and one or more outlets are arranged.
Further, the power source of the cavitation micro-cavity includes but is not limited to a motor, an engine or a hydraulic machine, so as to ensure that the rotating speed required for creating the resonance place is reached.
The working method of the device for generating the electron accelerated wave through cavitation resonance to change the molecular structure comprises the following steps:
step one, defining a target chemical element in a mixture, and determining an element serial number of the target chemical element according to a Mendeleev periodic table;
secondly, calculating the width of a groove between the resonance wheels;
step three, calculating the number of resonance wheels in the cavitation micro-cavity;
calculating the optimal outer radius and inner radius of the resonance wheel in the cavitation micro-cavity;
step five, calculating the motor revolution of the cavitation micro-cavity in a stable state;
setting parameters of the device according to the steps from the first step to the fifth step, then enabling a mixture containing a target chemical element to enter the cavitation micro-cavity through an inlet pipeline, passing through the resonance wheels and the grooves which are uniformly distributed in the cavitation micro-cavity, and rotating at a high speed in a resonance field which is jointly formed by the cavitation micro-cavity, the resonance wheels and the grooves to generate an electron acceleration wave;
and step seven, changing the molecular structure of the target chemical element by the electron acceleration wave generated in the step six, and releasing the product of changing the molecular structure from the outlet pipeline.
Further, the calculation formula of the width of the groove between the resonance wheels is as follows:
wherein S represents the width of the groove, and Y is the element number of the chemical element in the mixture;
the calculation formula of the number of the resonance wheels in the cavitation microcavity is as follows:
Z1=9.8292352*58/Y (3)
wherein C represents the number of cavitation micro-cavity resonance wheels, C is rounded according to a specific rule of target elements to obtain an integer value, and Z is1Is the number of electron revolutions of any chemical element in a steady state, and Z is the motor speed at which electron acceleration waves can be generated;
the calculation formula of the outer radius of the resonance wheel is as follows:
R1=D1*C (4)
D1=1/274π*Y (5)
wherein D is1Is the radius of the electron orbit of any chemical element in said stable state;
the calculation formula of the optimal inner radius of the resonance wheel in the cavitation microcavity is as follows:
R2=R1*1/2 (6)
wherein R is2Represents the optimal inner radius of the resonance wheel in the cavitation micro-cavity;
the inner radius of the resonance wheel in the cavitation micro-cavity is 1/2 of the optimal outer radius of the resonance wheel in the cavitation micro-cavity in algorithm and structural design;
the calculation formula of the motor revolution of the cavitation micro-cavity is as follows:
further, the physical state of the mixture includes solid, liquid, gas, solid-liquid mixture, gas-liquid mixture, solid-gas mixture or mixture of the three.
The invention has industrial applicability, selectively changes the molecular structure of solid, liquid, gas or the mixture thereof by generating electron acceleration wave in the mixture through cavitation resonance macroscopically, and can be applied to various fields of national economy, particularly the fields of petroleum, petrifaction and mineral production, including the removal of sulfur from petroleum, the extraction of rare elements and the like.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
FIG. 1 shows a device for generating electron acceleration waves by cavitation resonance to change molecular structure, which comprises a resonance shaft 1 and a base 2, wherein the base 2 is connected with a cavitation micro-cavity 3, the cavitation micro-cavity 3 is turbine-shaped, the power source of the cavitation micro-cavity 3 includes but is not limited to a motor, an engine or a hydraulic press, which is used for ensuring the rotating speed required by the creation of a resonance place, the resonance shaft 1 penetrates through the cavitation micro-cavity 3 and is hermetically connected with the cavitation micro-cavity 3 through a machine seal 8, a resonance wheel 4 is arranged in the cavitation micro-cavity 3, the resonance wheel 4 comprises a plurality of resonance wheels, the plurality of resonance wheels are uniformly distributed in the cavitation micro-cavity 3, a plurality of grooves 5 are arranged on the resonance wheel 4, the grooves 5 comprise a plurality of grooves, the grooves are uniformly distributed on the resonance wheel 4, and are used for releasing the mixture after being fed into the device for treatment, gaps of the grooves 5 are released, a resonance ring 6 is arranged on the periphery of the resonance wheel 4, the rotating speed is required for creating a resonance place, the inlet 9 is formed in the shell at the right end of the cavitation micro-cavity 3, the outlet 10 is formed in the shell at the top end of the cavitation micro-cavity 3, the inlet 9 and the outlet 10 are communicated with the inside of the cavitation micro-cavity 3, the valve 7 which is communicated with the outlet 10 and the cavitation micro-cavity 3 is arranged on the same side of the outlet 10, the valve 7 is arranged at the top end of the cavitation micro-cavity 3, and the outlet 10 and the valve 7 are one or more.
The working method of the device for generating the electron accelerated wave through cavitation resonance to change the molecular structure comprises the following steps:
step one, defining a target chemical element in a mixture, and determining an element serial number of the target chemical element according to a Mendeleev periodic table;
step two, calculating the width of the groove between the resonance wheels, wherein the calculation formula is as follows:
wherein S represents the width of the groove, and Y is the element number of the chemical element in the mixture;
step three, calculating the number of the resonance wheels in the cavitation micro-cavity, wherein the number calculation formula is as follows:
Z1=9.8292352*58/Y (3)
wherein C represents the number of cavitation micro-cavity resonance wheels, C is rounded according to a specific rule of target elements to obtain an integer value, and Z is1Is the number of electron revolutions of any chemical element in a steady state, and Z is the motor speed at which electron acceleration waves can be generated;
the formula for the outer radius is as follows:
R1=D1*C (4)
D1=1/274π*Y (5)
wherein D is1Is the radius of the electron orbit of any chemical element in said stable state;
step four, calculating the optimal inner radius of the resonance wheel in the cavitation micro-cavity, wherein the calculation formula of the optimal inner radius is as follows:
R2=R1*1/2 (6)
wherein R is2Represents the optimal inner radius of the resonance wheel in the cavitation micro-cavity;
the inner radius is 1/2 of the optimal outer radius of the resonant wheel in the cavitation micro-cavity in algorithm and structural design, so that the inner radius of the resonant wheel can be structurally set;
step five, calculating the motor revolution of the cavitation micro-cavity in the stable state, wherein the calculation formula is as follows:
step six, setting parameters of the device according to the steps one to five, and then enabling a mixture containing a target chemical element to enter the cavitation micro-cavity 3 through an inlet 9 pipeline, wherein the physical state of the mixture comprises a solid, a liquid, a gas, a solid-liquid mixture, a gas-liquid mixture, a solid-gas mixture or a mixture of the three, the mixture passes through the resonance wheels 4 and the grooves 5 which are uniformly distributed in the cavitation micro-cavity 3 and rotates at a high speed in a resonance field which is jointly created by the cavitation micro-cavity 3, the resonance wheels 4 and the grooves 5 to generate an electron acceleration wave;
and step seven, changing the molecular structure of the target chemical element by the electron acceleration wave generated in the step six, and releasing the product of changing the molecular structure from the outlet 10 pipeline.
In the sixth step, electron acceleration wave is generated between the electron energy of any chemical element in the mixture and the corresponding dynamic electron orbit, energy transfer is carried out, the mixture is fed into the cavitation micro-cavity by using the cavitation micro-cavity, so that the mixture rotates at high speed in a resonance field created by the cavity, and the substance subjected to cavitation resonance treatment is released through an outlet
1513.6725(m/s) at the same time
An electron acceleration wave is generated in this state.
It should be noted that when treating mixtures in liquid or gaseous state, the cavitated microchamber is kept closed; when the mixture in a liquid or gas state is treated, the position of the cavitation micro-cavity body can be randomly arranged; when processing a solid mixture, the cavitated microchamber is preferably oriented vertically.
When the size of the mixture is larger than the width S of the groove of the cavitation micro-cavity, the mixture can pass through the gap between the outer surface of the cavitation micro-cavity and the resonance ring, meanwhile, the gap between the outer surface of the cavitation micro-cavity and the resonance ring can also enable waste gas to be discharged smoothly, and when the size of the mixture is smaller than or equal to the width S of the groove, the fed mixture can pass through the groove in an optimal mode.
In order to create a stable electron motion orbit required by a target chemical element, the rotating speed of a motor is set for the target element in the mixture composition under the specific diameter of a cavitation micro-cavity, and an electron acceleration wave of the target element is excited, wherein the energy of the electron acceleration wave can reach 13.6XY2eV, the excitation of such electron acceleration wave leads to the change of the structure of the target molecule, and thus to the cleavage and recombination of the molecular chain of the target chemical element, in the following manner for various physical states of the mixture:
when the fed mixture is gas, the molecular structure of the target chemical element is changed, and the original molecular chain can be quickly disconnected and immediately recombined before leaving the resonance field in the cavitation micro-cavity, so that the target chemical element or the target compound in various gas components can be synthesized;
when the fed mixture is liquid, the molecular chains of the target chemical elements are broken partially or completely by forcing when the fed mixture leaves a resonance field in the cavitation microcavity, and then the molecular chains are rearranged and combined, so that the original molecular structure is changed;
when the fed mixture is solid, particularly mineral, the starting point of the breakage is carried out in a microscopic state, and the breakage mainly acts on the part where the molecules which generate the electron acceleration wave are fused with the molecules of the mineral, and further the breakage of the molecular chains of the spatial framework of the mineral molecules is accompanied, and the breakage is represented in the form of the block breakage or shearing of the molecular chains or the total breakage of the molecular chains of the spatial framework of the molecular chains; subsequently, the material changes in a macroscopic state according to the process of breaking the microscopic molecular chains, which is mainly represented by the target mineral reaching about 20mm or more, the surface of the mineral is observed to present micro-cracks, which continuously exacerbate the destruction of the target mineral, which is the most effective method for the destruction of the mineral and requires a lower energy consumption.
The invention will be further elucidated with reference to specific embodiments.
The first embodiment,
Carrying out cavitation resonance on magnesium atoms to enable the magnesium atoms to generate electron acceleration waves, wherein the internal geometric shape of the cavitation micro-cavity is calculated as follows:
according to the chemical element number of magnesium in Mendeleev's periodic table as 12, the number of motor revolutions Z is determined to be about 3000rpm by the number of revolutions of the power source (frequency 60Hz) of the cavitation micro cavity, and then the number of resonance wheels in the cavitation micro cavity is calculated as follows:
taking the nearest integer 23 as the basis of calculation; the required motor revolution number of the resonance wheel in the cavitation micro-cavity under the condition that C is 23 is as follows:
after calculation, the magnesium alloy enters the cavitation micro-cavity through the inlet pipeline to resonate, so that electronic harmonic waves are generated, and the molecular structure of magnesium atoms is changed.
Compared with the prior art, the invention has the following advantages:
a. a frequency field is created by high-speed rotation of the resonance wheel, each chemical element has an electron acceleration wave frequency field corresponding to the chemical element, and the specific element can be accurately positioned to a specific element level for selective extraction of the specific element;
b. can provide exact standards for changing molecular structures, and can carry out standard customization;
c. with industrial applicability, the technical scheme provided by the invention has been tested in multiple directions in practical application through the proposed device:
in changing the flow properties of the crude oil, the following results were obtained:
(I) the density and viscosity of the crude oil are reduced;
(II) reduces the viscosity and pour point of the fuel oil;
(III) reduced percentage of sulfur content in crude oil and fuel oil;
(IV) reduced percentage of metals content in crude oil and fuel oil;
(V) 35% of light components of oil products in a refinery are improved;
(VI) the crude oil pipeline transportation efficiency is improved, the crude oil pipeline transportation cost is reduced, and the cold transportation of a crude oil pipeline network is realized;
(VII) improving the flow of crude oil, activating the crude oil in the stratum;
(VIII) the activity and the fluidity of aging oil in a refinery are improved;
(IX) light hydrocarbon components of the straight run gasoline are improved;
d. the method can modify minerals or crystals, selectively destroy the molecular space architecture of the minerals, enrich target mineral elements and increase the possibility of effective application in other fields.
The above embodiments are not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art may make variations, modifications, additions or substitutions within the technical scope of the present invention.