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Publication numberUSRE35826 E
Publication typeGrant
Application numberUS 08/417,143
Publication dateJun 23, 1998
Filing dateApr 5, 1995
Priority dateJan 9, 1992
Fee statusPaid
Also published asUS5200071
Publication number08417143, 417143, US RE35826 E, US RE35826E, US-E-RE35826, USRE35826 E, USRE35826E
InventorsMichael S. Spiegel
Original AssigneeAdvatech Research & Development, Inc.
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Applying magnetic field on a fluid containing charge particles or ions for changing the rate of growth of certain crystals or solids formed with in a fluid; useful for water treatment used in coolers, boilers, food system and waste
US RE35826 E
Abstract
A fluid treatment system .Iadd.and method .Iaddend.for changing the rates of growth of certain crystals and other solids formed within a fluid is disclosed herein. The apparatus includes a variable speed motor having a shaft, and a wheel assembly mounted on the shaft. The wheel assembly includes two circular ferro-magnetic disks separated from each other on the shaft a pre-determined distance to form a gap, and a ferro-magnetic spacer member concentrically arranged about the shaft and located in the gap between the disks. An array of magnets is concentrically arranged in a circular pattern about the shaft on the inner surface of each of the disks with the polarity of the inner pole faces of the magnets on one of the disks bang the same as each other and the polarity of the inner pole faces of the magnets on the other of the disks being the same as each other but opposite to the polarity of the inner pole faces of said magnets on the one disk. An elongated fluid conduit having a U-shaped non-magnetic portion is located in the gap formed by the disks between the inner pole faces of the magnets, the U-shaped non-magnetic portion of the conduit being hollow so as to have no obstruction for continuous fluid flow therethrough, wherein sufficient magnetic force is provided by the combination of the strength of the magnets, velocity of the fluid, and rotation of the magnets to accomplish beneficial effects on impurities in the fluid.
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Claims(8)
I claim:
1. A fluid . .treatmemt.!. .Iadd.treatment .Iaddend.system for changing the rates of growth of certain crystals and other solids formed within a fluid comprising:
a. . .and.!. .Iadd.an .Iaddend.electrical power source;
b. a speed control unit connected to said power source, said unit having an adjustable knob;
c. a motor connected to said speed control unit, and having a rotatable shaft;
d. a wheel assembly mounted on said shaft consisting of two circular ferro-magnetic disks separated from each other on said shaft a pre-determined distance to form a gap, said disks being oriented perpendicular to and being concentrically mounted about said shaft, each said disk having an inner surface facing said gap;
e. a ferro-magnetic spacer member concentrically arranged about said shaft and located in said gap between said disks, said spacer member having a pair of spaced apart ends, a respective said end of said spacer member contacting a respective said inner surface of said disks;
f. an array of magnets concentrically arranged in a circular pattern about said shaft on a said inner surface of each of said disks, each said magnet having an inner pole face facing the gap, each magnet having a polarity parallel to a longitudinal direction of said shaft, the number of said magnets on each said disk being equal, each respective said magnet on one of said disks being located directly opposite to a respective said magnet on said other disk;
g. the polarity of the inner pole faces of said magnets on one of said disks being the same as each other and the polarity of the inner pole faces of said magnets on the other of said disks being the same as each other but opposite to the polarity of the inner pole faces of said magnets on said one disk;
h. an elongated fluid conduit having a U-shaped non-magnetic portion located in the gap formed by said disks between said inner pole faces of said magnets, wherein fluid flows in said conduit through said gap in a continuous flow into and out of said gap;
i. said U-shaped non-magnetic portion of said conduit being hollow so as to have no obstruction for continuous fluid flow therethrough, wherein sufficient magnetic force is provided by the combination of the strength of the magnets, velocity of the fluid, and rotation of the magnets to accomplish beneficial effects on impurities in the fluid.
2. The fluid treatment system of claim 1 wherein said magnets are attached to said disks with epoxy glue, said glue coating said magnets to prevent oxidation.
3. The fluid treatment system of claim 1 wherein said magnets are located in slots formed in said inner surfaces of said disks. .Iadd.4. A fluid treatment system for changing the rates of growth of certain crystals and other solids formed within a fluid comprising:
a rotatable shaft;
an assembly mounted on said shaft and rotatable therewith, said assembly comprising two ferro-magnetic disks separated from each other on said shaft a predetermined distance to form a gap, each said disk having an inner surface facing said gap;
a ferro-magnetic spacer member concentrically arranged about said shaft and located in said gap between said disks, said spacer member having a pair of spaced apart ends, a respective said end of said spacer member contacting a respective said inner surface of said disks;
a magnet device on at least one of said disks and being separate from said spacer member for providing a magnetic field across said gap in a direction parallel to said shaft; and
an elongated fluid conduit having a U-shaped non-magnetic portion located in the gap formed by said disks and intersecting said magnetic field, said U-shaped non-magnetic portion of said conduit being hollow so as to have no obstruction for continuous fluid flow therethrough..Iaddend..Iadd.5. The fluid treatment system of claim 4, wherein said magnetic field forming device includes first and second pluralities of magnets distributed, respectively, on the opposing inner surfaces of said disks, and wherein the magnetic field across said gap is unidirectional, whereby when said shaft is rotated, the fluid in said conduit portion is subjected to a non-reversing, moving magnetic field..Iaddend..Iadd.6. The fluid treatment system of claim 5, wherein said magnets are attached to said disks with epoxy glue, said glue coating said magnets to prevent
oxidation..Iaddend..Iadd.7. The fluid treatment system of claim 5, wherein said magnets are located in slots formed in said inner surfaces of said disks..Iaddend..Iadd.8. The fluid treatment system of claim 4, further including a variable speed drive for rotating said shaft selected from the group consisting of electrical and mechanical drives..Iaddend..Iadd.9. The fluid treatment system of claim 8, wherein the peripheral speed of said rotating disks and the strength of said magnet device together provide a Lorentz force greater than about 10,000 gauss-meters/sec in the fluid in said conduit portion..Iaddend..Iadd.10. An apparatus for treating solids within a flowing fluid, said apparatus comprising:
an unobstructed conduit portion for establishing a flow direction for said flowing fluid, said conduit portion being formed of a non-magnetic material; and
a device including a rotatable assembly having an axis of rotation, a pair of magnetic disks separated along the axis of rotation to form a gap, wherein said disks have opposed inner surfaces facing said gap, and wherein a magnetic spacer member is interposed between and in abutting contact with said opposed inner surfaces, and a magnet device on at least one of said disks and being separate from said spacer member, for generating a non-reversing, moving magnetic field within said fluid in said conduit portion, said field being oriented in a direction generally parallel to said axis of rotation and perpendicular to said flow direction, said conduit portion being disposed within said gap and said conduit portion being configured such that said flow is unidirectional through said gap relative to a rotational direction of said disks..Iaddend..Iadd.11. The apparatus of claim 10, wherein said magnet device comprises a plurality of magnets disposed on said disks as opposed magnet pairs..Iaddend..Iadd.12. The apparatus of claim 11, wherein the Lorentz force generated by said device in said flowing fluid is greater
than 10,000 gauss-meters/sec..Iaddend..Iadd.13. The apparatus of claim 10, wherein said magnet device includes at least one permanent magnet mounted on each of said disks, said magnets configured as an opposed pair..Iaddend..Iadd.14. The apparatus of claim 10, wherein said conduit portion has an arcuately shaped longitudinal axis..Iaddend..Iadd.15. The apparatus of claim 14, wherein said conduit portion is U-shaped..Iaddend..Iadd.16. The apparatus of claim 10, further including a variable speed drive for rotating said disks selected from the group consisting of electrical and mechanical drives..Iaddend..Iadd.17. An apparatus for inhibiting the formation of calcite within a fluid containing dissolved calcium carbonate, said apparatus comprising:
an elongated conduit for establishing a flow direction for confining said calcium carbonate-containing fluid, said conduit having an unobstructed portion with a longitudinal axis and defined by a non-magnetic material; and
a device including a rotatable assembly for generating a non-reversing, moving magnetic field within said fluid in said conduit portion, said rotatable assembly having an axis of rotation, a pair of magnetic disks separated along the axis of rotation to form a gap, wherein said disks have opposed inner surfaces facing said gap, and wherein a magnetic spacer member is interposed between and in abutting contact with said opposed inner surfaces, and a magnet device on at least one of said disks and being separate from said spacer member, for generating a non-reversing, moving magnetic field, wherein said field is generally parallel to the axis of rotation, and wherein said conduit portion is disposed within said gap, said field being oriented in a direction generally perpendicular to the longitudinal axis of said conduit portion, said conduit portion being configured such that said flow is unidirectional in said gap relative to a rotational direction of said disks..Iaddend..Iadd.18. The apparatus of claim 17, wherein said magnet device comprises a plurality of permanent magnets disposed on said disks as opposed pairs..Iaddend..Iadd.19. The apparatus of claim 17, wherein said longitudinal axis of said conduit portion is arcuate, wherein said disks when rotated have a velocity with a circumferential component, and wherein the circumferential component of the velocity of said disks is generally parallel to said conduit portion longitudinal axis..Iaddend..Iadd.20. The apparatus of claim 19, wherein said conduit portion is U-shaped..Iaddend..Iadd.21. The apparatus of claim 17, further including a variable speed drive for rotating said disks selected from the group consisting of electrical and mechanical drives..Iaddend..Iadd.22. A method of treating crystalline solids within a fluid using a rotatable assembly having an axis of rotation, a pair of disks separated along the axis of rotation to form a gap, and a magnet device associated with the disks forming a unidirectional magnetic field across the gap generally parallel to the axis of rotation, said method comprising the steps of:
generating a non-reversing moving magnetic field in said gap by rotating the rotatable assembly; and
flowing said fluid through said gap through a non-magnetic conduit portion in a flow direction, said flow direction being generally perpendicular to said field, and being unidirectional in said gap relative to a rotational
direction of said disks..Iaddend..Iadd.23. The method of claim 22, wherein the direction of flow is generally opposed to the direction of movement of said magnetic field..Iaddend..Iadd.24. The method of claim 22, wherein said generating step includes selecting the magnet device to have a predetermined strength and rotating the rotatable assembly at a predetermined peripheral velocity, such that the solids are subjected to a Lorentz force in excess of 10,000 gauss meters/sec..Iaddend..Iadd.25. The method of claim 22, wherein the flowing step includes flowing the solid-containing fluid through an unobstructed arcuate conduit formed of a non-magnetic material positioned in the gap..Iaddend..Iadd.26. The method of claim 22, wherein in said rotating step an angular speed of rotation is selected in accordance with surface charge characteristics of the solids..Iaddend..Iadd.27. A method for inhibiting the formation of calcite in a aqueous solution containing calcium carbonate using a rotatable assembly, said rotatable assembly having an axis of rotation, a pair of disks separated along the axis of rotation to form a gap, and a magnet device associated with said disks forming a unidirectional magnetic field across the gap generally parallel to the axis of rotation, said method comprising the steps of:
generating a non-reversing, moving magnetic field in said gap by rotating the rotatable assembly, the magnetic field moving in a direction;
exposing said solution to said moving magnetic field in the gap for inducing a Lorentz force field of a predetermined level in the solution including the step of flowing the fluid through a non-magnetic conduit portion, said flow being unidirectional relative to a rotational direction of the disks; and
applying said non-reversing, moving magnetic field to said solution for a time sufficient for said predetermined Lorentz force field to promote the
formation of aragonite form of calcium carbonate..Iaddend..Iadd.28. The method of claim 27, wherein said direction of movement of said magnetic field is generally opposite to said flow direction..Iaddend..Iadd.29. The method of claim 27, wherein a Lorentz force of greater than 10,000 gauss-meters/sec is produced in said flowing fluid magnetic field..Iaddend..Iadd.30. The method of claim 27, wherein said flowing step includes flowing the solution in a conduit arcuately about the axis of rotation in a direction generally opposite the direction of motion of the
moving field..Iaddend..Iadd.31. The method of claim 27, wherein in said rotating step an angular speed of rotation is selected in accordance with surface charge characteristics of calcium carbonate..Iaddend..Iadd.32. A method of mixing and stabilizing a water-oil emulsion using a rotatable assembly having an axis of rotation, a pair of disks separated along the axis of rotation to form a gap, and a magnet device associated with the disks forming a unidirectional magnetic field across the gap generally parallel to the axis of rotation, said method comprising the steps of:
generating a non-reversing moving magnetic field in said gap by rotating the rotatable assembly; and
flowing said emulsion through said gap through a non-magnetic conduit portion in a flow direction, said flow direction being generally perpendicular to said field, and being unidirectional in said gap relative to a rotational direction of said disks..Iaddend.
Description
BACKGROUND OF THE INVENTION

1. Field of the Invention

This invention lies in the general field of fluid treatment, purification, and processing. More specifically this invention functions through the application of the a magnetic field on a fluid containing charged particles or ions, wherein the relative velocity of the particles perpendicular to the magnetic field lines produces a well known resultant force on the ions. Thus the invention is in the field wherein fluids are treated by means of a magnetic fields that induces ion movement through a Lorentz force phenomena.

The invention also lies in the general field of ion propulsion through the use of a moving magnetic field as is found in the area of plasma physics with certain applications concerned with rocket propulsion and controlled fusion. The application of this invention is not in these areas but is in a low energy regime with application for the redistribution of surface charges on small particles or aggregates of particles within the treated fluid.

2. Brief Description of Prior Art

There have been numerous designs for the magnetic treatment of fluids, specifically water, by inventors both in Europe and the United States. All previous designs utilized fixed or oscillating magnetic fields not spatially translating magnetic fields aligned transverse to the direction of fluid flow. Minerals dissolved in the fluid to be treated appear as suspended charged particles (ions). Ions moving solely with the fluid's velocity through a magnetic field are acted on by a force known as the Lorentz force. This force is usually stated in vector form as:

FL =JB

Where FL is the Lorentz Force vector, J the current vector or charges, q, moving at Velocity V, and B the Magnetic Field vector. This equation may be rewritten as: FL =qVB. Since the charge q, can be either positive or negative the Lorentz force FL, will be perpendicular to the plane of the two vectors, V and B, but in or out of that plane depending on the charge.

The foregoing is well known and has been the basis of most of the prior art in this field. In numerous cases it has been determined by various persons that the induction of a Lorentz force in a fluid has resulted in the reduction and prevention of the formation of various encrusting mineral scale formations on the interior portions of fluid conduits. The most well known and cited example being that of calcium carbonate, where the hard scale deposit know as calcite is converted to a soft loose sludge, which is easily removed. The benefit of this art is to prevent the loss of the system's efficiency through losses in both the rate of flow of the fluid and heat transfer by the fluid through the conduit walls due to the constriction and insulation caused by the scale build up.

Hertzog U.S. Pat. No. 4,946,590 discloses a water treatment device consisting of permanent magnets clamped on conduit so that the direction of the fixed field is perpendicular to the flow of the fluid. This is typical of many devices that are in use all over the world. It is claimed, without a detailed physical argument, that a reversal of the magnetic field along the fluid flow path is beneficial. It makes use of the Lorentz force to produce the results mentioned above, but does not explain the physics of the process beyond a mention of ion agitation and depends totally on the velocity of the fluid to create the effect.

There are a number of similar applications of this art. Moody U.S. Pat. No. 3,228,878 is a permanent magnet device that has no field reversal and fixed permanent magnets. Green et al U.S. Pat. No. 2,939,830 has an field reversal using an electromagnet and alternating current. Granger U.S. Pat. No. 4,229,389, Fujita U.S. Pat. No. 4,188,296, Mitchell U.S. Pat. No. 4,755,288 and Carpenter U.S. Pat. No. 4,367,143 make use of fixed magnetic fields that and claim to improve and enhance the quality and utility of a variety of fluids.

Brigante in U.S. Pat. Nos. 4,347,133; 4,148,731; 4,151,090; and 4,288,323 teaches a helical geometry for the flow of a fluid within a cylindrical conduit in which a fixed axial magnetic field has been induced by means of an electromagnet. In this case the Lorentz force is achieved by the circular component of the fluids velocity which is perpendicular to the axial magnetic field. Claims of efficacy in cleaning ground water, separating fine solids, and removing magnetic particles are made. No spatially translating magnetic field is used.

Each of the foregoing patent disclosures, and foreign patents: SU 1430357A Russian; ETA 0277524 German; 46-2639 Japan; and 1212969 Russian, all are of the type wherein Lorentz forces are induced by fluid velocity alone. They are incorporated in the teachings of the current patent only in that the show the efficacy of such treatment to reduce calcareous scale accumulations and other benifits. In no instance does any of this art suggest the use of spatial translation of magnetic fields to produce a relative velocity of the fluid to the magnetic field. No concise and clear cut explanation of the physical or chemical processes involved is proffered by any of these teachings beyond a vague reference to Lorentz force initiation and ion agitation.

A second area of prior art is that which deals with applications of moving magnetic fields. Though no art was found that described the use of moving magnetic fields transverse to conduits of fluid to produce Lorentz force treatment of nonmagnetic particles suspended in the fluid, there are some teachings on moving fields. Dudnik et al Russian Inventor's Certficate No. SU 0722576 teaches a moving solenoidial magnetic field that is axial, not transverse, to the fluid conduit and moves parallel to the axis thus inducing no Lorentz force. The purpose of the solenoid magnetic field is to remove ferromagnetic particles only, and not to effect ion transport or provide any other benefit.

All prior art has relied to varying degrees on an assumption that the introduction of magnetic fields to fluids flowing in a conduit would induce some benefit. Grutsch and McClinctock in Paper No. 330 in the Corrosion '84 conference sponsored by the National Association of Corrosion Engineers, (NACE), provide a survey of numerous applications of magnetic water treatment. They describe four different geometries employed to achieve treatment. In all cases the magnetic fields were fixed and not subject to spatial translation. No concise theories are offered as to the process involved, but support for the theoretical arguments that no physical change can be induced in the water molecule, itself, by magnetic fields are reiterated.

Busch et al in Paper No. 251 in NACE Corrosion '85 conference describe experiments performed at Baylor University in which a permanent magnet water treatment system was tested. There results show the presence of weak induced electric potentials and currents, with clear dependence on fluid flow rates. A number of hypotheses were suggested that were dependent on the induction of the measured electric current, but no definitive argument could be made for any of the vague models proffered.

The most significant advance in the understanding of the phenomenon heretofore, is given by Donaldson and Grimes in the Feb. 18, 1988 issued of the New Scientist, published in England. In that and two other papers: Donaldson in January 1988 Tube International; and Grimes in March 1988 Tube International, detailed evidence is provided on the changes in crystal morphology, phase, growth rates, and solubility. Shown conclusively, through the use of electron and optical microscopy, and X-ray diffraction analysis, are the comparative results of magnetic treatment of hard water using a permanent magnetic flow through device. Comparative micrographs clearly show dramatic changes of the suspended crystals after magnetic treatment. A sixteen fold reversal of the ratios for the calcium carbonate crystal phases, calcite and aragonite, was shown. This is of particular importance in that it provides a link in the causal argument of how calcite scale build up is removed from systems.

Donaldson and Grimes offer three possible modalities for the observed effects. Turbulence induced by the physical geometry of the treatment apparatus may have some small effects, but analysis shows it to be of lower order than that of observed results. Collision processes attributed to the Lorentz force are argued to be also of lower order. They attribute the primary cause to be that of changes induced on the surfaces of crystal nuclei. "The magnetic field acts at the surface of the crystallites, modifying the nature of the charges at the surface. This alters the growth of the crystals in general and on specific planes. Such a modification of the way nuclei form around which crystals grow explains everything we have seen." They further state, "At the interface between solids and fluids, diffusion layers arise between the solution and the faces of the growing crystal. The growing faces each carry a distinctive charge. How the magnetic field affects the surface of the crystal and the diffusion layer is critical."

In all previous teachings on this art there has been no introduction of translating magnetic fields. The work by Donaldson and Grimes is the key to understanding how the process works, yet, they have not worked out the details of the surface processes. It is the actual force and energy constraints on the surfaces that control the event thresholds and rates for the formation of crystal surfaces. Our research has revealed a theory that allows the calculation of these key parameters. The embodiment presented herein allows the fine tuning and high range of variation that bring the fullest application of this technology to the widest range of phenomena.

SUMMARY OF THE INVENTION

A unitary system comprised of multiple pairs of permanent rare earth magnets arranged in a circular array on the circumference of a wheel. The rim of the wheel is shaped like a "U". The magnets on one inner surface of the "U" are comprised of all north magnetic poles. The opposite inner surface is comprised of all south magnetic poles. Thus the space between the two inner surfaces consists of an endless series of closely spaced transverse magnetic fields. The wheel is mounted on an electric motor with a variable speed adjustment that allows a wide assortment of rotary speeds.

A nonmagnetic conduit is fitted to the curve of the wheel so that it lies within the gap of the "U" shape of the rim for up to 360 degrees of the circle made by the wheel. Various applications may require as little as a single tangent convergence of the conduit and the wheel. As the wheel turns the magnetic field lines of the permanent magnets cut through the conduit and the fluid therein. The velocity of the field lines through the fluid is:

V=2πrφ+Vf 

Where, φ is the radial velocity, r is the radius, and Vf is the velocity of the fluid through the conduit. Typically the velocity of the magnetic field due to the rotational velocity times the radius will be much much greater than the flow velocity, Vf. Thus it is possible to treat fluids that have very low, or even zero velocity.

Using Neodymium-Iron-Boron (Ne2 Fe14 B) rare earth magnets it is possible to achieve magnetic fields in the gap between the magnetic poles on the order of 1000 gauss and larger. Such fields coupled with the velocities generated by standard electric motor rotational speeds of 3600 RPM and assemblies with a radius of four inches (4") allow Lorentz forces that are 50 to 100 times greater than can be achieved using any of the prior art.

Prior art has shown that systems using magnetic fields to create a Lorentz force in a fluid produce desired results in the area of scale prevention and removal. There is also anecdotal evidence that supports the use of the treatment to prevent alga, as a biocide, and to speed up the settlement time for colloids in treated sewerage. None of the prior art, with the exception of Donaldson and Grimes offer any plausible set of causal relations that can explain the results, and their work is limited in its scope to speculation as to the details of process.

I now disclose that the specific function that governs the effects of the magnetic field treatment of fluids or gasses is the Surface Work Function, ω, the energy that bonds a single electron to a surface that is unique to a given aggregate of particles that form the surface. All charged particles are acted on by the Lorentz force, but the heavier ion clusters, composed of many protons and neutrons, are many thousands of times more massive than a single electron. Thus, the only significant velocities are imparted to electrons.

Micells, micro-crystals composed of less than one hundred molecules, larger suspended crystal structures, and the surfaces of very small suspended colloids carry a surface charge due to electrons that reside on the solid's surface. Each electron is bound to by an ω that is dependent on the composition and structure of the micro-solid. Depending on the initial condition of the fluid to be treated the surface charge of the various types of micro-solids may be attractive, repulsive, or neutral to an incoming ion.

In the case of crystal structure, a micro-crystal or crystal nucleus, acts as the core for the build up of a crystal. As ions of the same chemical that constitutes the building blocks of the crystal lattice collide with the surface of the crystal some will bond at the proper orientation to the existing lattice and add to the surface of the crystal. It is this interaction between the crystal lattice surface and the incoming ion that is critical to the rate of growth and morphology of the lattice. It is clear that the interaction between the charged ion and a charged surface is dominated by electrostatic forces. The electrostatic surface charge on a lattice will effect the orientation of incoming ion due to its electric dipole moment. Since the ion will only bond to the lattice if it collides with the surface at the proper orientation to allow the molecule to fit into the existing lattice pattern, the probability for each collision to add to the crystal is controlled by the surface charge of the crystal. Thus any change in the number of electrons residing on a given crystal surface will change the interaction probabilities that determine the future growth of that crystal.

The Lorentz force produced by a relative velocity of charges perpendicular to a magnetic field acts primarily on electrons to move them through the fluid. Most electrons are bound either to ions, molecules, or the surfaces of solids. Electrons bound to surfaces are less tightly bound than those in even the highest energy levels of a molecule. Typically the first ionization energy of an electron is three to ten times that of its Work Funtion, ω, when that same element or compound is formed into a lattice. As an example the element carbon has a first ionization of 11.2 ev, a second ionization of 24.3 ev, and a ω=4.0 ev (Thermionic Work Function). Thus significantly smaller energies may free electrons from a surface than would be required to ionize an S or P shell electron from a singular molecule.

The electrons on the surface of crystals will have a distribution of kinetic energies that are dependent on the temperature of the fluid, some will need much less energy input to over come the ω of come the ω of the crystal. The redistribution of only a few electron charges will change the probability of crystal formation. The weak energy interaction of the Lorentz force, if greater than crystal's ω, is enough to shift probability, and rate of formation of a crystal phase.

A specific example of how this process works is demonstrated by the conversion of the crystal phases in calcium carbonate, calcite and aragonite. Both calcite and aragonite are chemically identical, CaCO3, but form two different crystal phases. Calcite is has a slightly lower lattice energy than aragonite and is found in higher concentrations by a radio of 4 to 1. After Lorentz force type magnetic treatment Donaldson and Grimes reported a reversal of concentration so that one calcite crystal was formed to four aragonite crystals. This increase in the aragonite concentration by 1600%. Since the amount of energy required to disassociate the calcite and form the aragonite is at least two orders of magnitude greater than the energy added to the system by the magnetic treatment we must find an indirect causal chain that will explain this phenomena.

We know, from the preceding discussion, that a small number of electrons will be shifted to or from the surfaces of the the existing micro-crystals. This slight change in surface charge will cause those crystals to grow as aragonite. This explains how one phase is increased but not how the previously dominant calcite is reduced. It is well known that, when the partial pressure of ions forming a crystal in a solution is reduced, a crystal exposed to that solution will dissolve back into that solution. Thus, the newly dominant aragonite absorbs the Ca and CO3 ions from the solution, it reduces the partial pressure of these ions on the existing calcite crystals breaking the existing equilibrium condition and causing the calcite to dissolve into Ca and CO3 ions which reform as aragonite. Thus we can see how a very weak interaction causing a slight modification of charge distribution can produce a dramatic change within the solution.

It was necessary to understand the process by which all changes within a magnetically treated fluid are caused in order to understand the significance of the function of the invention. This invention allows control over an extremely wide range of the Lorentz force that couples with the electrons in the treated fluid. Adjustment of the rotational velocity, Ω, and the radius of the moving magnets can achieve a continuous variation in the energy imparted to the surface electrons. This wide range tuning capacity allow the selection of those ω's which will determine the group of micro-solids to be affected. This is a clear improvement on all previous magnetic treatment which is limited by low relative velocities of magnetic field to the fluid by pump pressure, surface friction, and form drag of various flow restriction devices inserted into the conduit where the fluid is treated. It further improves on previous teachings in that it allows the treatment of fluids that are slow moving or even at rest in the conduit. The most significant improvement is that previous teachings have an upper limit on the critical Lorentz force component, |VB|≈10,000 gauss meters/sec, where this teaching allows a |VB|≈1,000,000 gauss meters/sec, or a multiple of 100 times the previous teachings.

OBJECTS OF THE INVENTION

The objects of this invention share one common casual pattern. It is the treatment of solids of all compositions that are suspended within the fluid or gas within the magnetic array.

It is an object of this invention to treat all manner of fresh water that is used in cooling towers, boiler systems, food systems, waste systems, and chemical processing to prevent and remove the build up of scale or other precipitate that might block pipes or conduits within the system.

It is a further object of this invention to treat all manner of fresh water that is used in cooling towers, boiler systems, food systems, waste systems, and chemical processing to prevent and remove the build up algae and unwanted or dangerous bacteria.

It is a further object of this invention to provide pretreatment to salt water desalination systems to enhance efficiency by removal of salts.

It is a further object of this invention to enhance both the rate of formation and quality of industrial crystals.

It is a further object of this invention to mix and stabilize oil and water emulsions to allow for long term storage and higher fuel economy through greater combustion efficiency.

It is a further object of this invention to treat medical disorders that can be ameliorated by changing the quantitative make up of minerals, salts, and colloids that exist within the various parts of the human body. It is a further object of this invention to increase the speed and efficiency of sewage treatment by increasing the rates of compaction and settling of suspended colloids.

Other and further objects will be apparent from the drawings and following descriptions.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a perspective view of the preferred embodiment of the invention. It shows the electric motor which drives the double wheels with mounted permanent magnets. The magnets envelope a conduit that carries the treated fluid. The motor is connected to an electric controller that varies motor speed;

FIG. 2 shows a perspective view of the combined wheels with the permanent magnets installed;

FIG. 3 is a sectional view along line 3--3 of FIG. 2;

FIG. 4 is the plan front view of one wheel section with the permanent magnets attached at a spacing of 30 and;

FIG. 5 is a sectional view along line 5--5 of FIG. 4.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

The invention consists of a unitary package, shown in FIG. 1. The electric motor 1 is connected to a speed control unit 8 which is adjustable through a full range of speeds from 50 to 3450 RPM by means of knob 7. The system is powered by conventional electric power through connection 6. The rotation of the motor is translated to the wheel assembly 3 by means of a direct shaft connection 9 in FIGS. 2 and 3. .Iadd.Other electric driving means or mechanical driving means can be used in place of electric motor 1 to rotate shaft 9. Also, other electric or mechanical means can be used to provide the variable speed function of speed control unit 8 and adjustment knob 7. .Iaddend.Permanent Neodymium Iron Boron magnets 2, are mounted on the wheel assembly in such fashion that each set of magnets 2 in FIG. 2 are directly opposite each other and arranged so that all "north" poles reside on one inner face of the gap 10 of FIGS. 2 and 3, and all "south" poles reside on the opposite inner face of gap 10. Thus magnets 2 are attracting in all cases. Supports 5 on each side of the motor 1 provide a rigid mount and sufficient clearance for free rotation of wheel 3 and assembly of conduit 4. Conduit 4 shown in FIG. 1 carries the fluid that is treated by the moving magnetic flux as it passes through the conduit which is located in gap 10 while the wheel 3 rotates. That portion of conduit 4 that lies within gap 10, and is less than six inches (6") from the rim of the wheel 3, shall be made from a non-ferromagnetic material of low magnetic permeablilty. The fluid is moved through the conduit from its source and then returned to its system by means of external pumping methods.

Though conduit 4 in FIG. 1 is formed in a "U" shape and fitted closely within gap 10, there may be many applications wherein the conduit need only pass within the moving magnetic fields of the gap 10 in a tangential manner. Thus, in such cases, the conduit will run straight and no turn or deflection of the piping will be required. A further modification is that more, or less, of the magnet pairs 2 may be installed on the wheels 3. As larger wheels 3 are used for various conduit sizes and applications, no upper limit on the number of magnet pairs 2 can exist other than the physical limits of the space on the inner surface of wheels. Even a single pair of magnets 2 may be sufficient for some applications.

The section of conduit 4 that lies within the gap 10 should be constructed of nonmagnetic material so that the magnetic field flux may freely permeate the fluid contained. Conduit leading to this susceptible to magnetization it must be a minimum of one foot (1') from the rim of the wheel 3.

The wheel assembly shown in FIGS. 2 and 3 consists of two circular iron plates 3 separated by an iron spacer 12. The iron plates 3 are fitted with opposite pole permanent magnets 2 and bolted together with bolts 14 into threaded holes in the iron spacer 12. The purpose of the iron construction is to insure maximum magnetic flux in gap 10 by providing a magnetic media to retain the maximum flux in the magnetic circuit. This double wheel assembly is fitted onto the electric motor shaft 9 and made fast to the shaft by set screw 11. Other means of attachment are possible.

Each wheel plate 3 as shown in FIGS. 4 and 5 is a flat circular iron plate with cutout portions on the rim to accommodate permanent magnets 2. In FIGS. 4 and 5 a total of twelve (12) 1"1"0.5" permanent magnets 2 are equally spaced, at 30 on center, around the outer rim of the plate. This is a optimum for an 8" diameter wheel, but may vary for other physical considerations such as conduit size, and applications such as CaCO3 removal or waste treatment. Holes 13 are equally spaced around the interior of the plate 3 to provide access for the bolts 14 that fasten the plates to the spacer 12. A hole 15 is provided for motor shaft 9. The permanent magnets 2 are fastened into each cutout slot with epoxy glue and are coated with epoxy paint to prevent loss of magnetic strength due to oxidation. The permanent magnets on each plate will all have the same polarity, that is, each permanent magnet on one plate 3 will have a "north" pole facing the open gap 10. All the permanent magnets on the opposite plate 3 will have a "south" pole facing the open gap 10. Thus the field across the gap 10 and through the conduit 4 will be a continuous and attractive field.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US2939830 *Oct 4, 1956Jun 7, 1960Green William GWater conditioner
US3051988 *Oct 31, 1957Sep 4, 1962Baermann MaxMaterial with permanent magnetic properties
US3228878 *May 6, 1963Jan 11, 1966Howard S O NealMethod and apparatus for treatment of flowing liquids to control deposition of solid matter therefrom
US4148731 *Dec 27, 1977Apr 10, 1979Brigante Miguel FMulti-stage apparatus for the separation of finely divided solids from liquids
US4151090 *Nov 30, 1977Apr 24, 1979Brigante Miguel FUnitary package for water treatment for attachment to home hot water heater
US4188296 *Jan 10, 1978Feb 12, 1980Etuo FujitaFuel combustion and magnetizing apparatus used therefor
US4229389 *Mar 16, 1979Oct 21, 1980Thompson Marine CorporationGas diffuser, aerator, or sparger apparatus
US4288323 *May 27, 1980Sep 8, 1981Brigante Miguel FFree flow non-corrosive water treatment device
US4347133 *Jun 5, 1981Aug 31, 1982Brigante Miguel FElectromagnetic ground water conditioning system and sampling device for waste water and fermentation makeup water
US4367143 *Jun 3, 1981Jan 4, 1983Aqua Magnetics, Inc.Apparatus for magnetically treating liquid flowing through a pipe and clamping means therefor
US4755288 *Sep 12, 1986Jul 5, 1988Mitchell JohnApparatus and system for magnetically treating fluids
US4904381 *Jul 16, 1987Feb 27, 1990Kazuko UrakamiMagnetization treatment apparatus of fluid
US4935080 *Jan 11, 1989Jun 19, 1990Kollmorgen CorporationPhosphate, chromate protective coatings
US4946590 *Apr 12, 1989Aug 7, 1990Fluid Care Industries, Inc.Clamp-on magnetic water treatment device
DE875023C *Jul 19, 1951Apr 30, 1953Siemens AgTransportvorrichtung fuer Walzwerkserzeugnisse
DE2819740A1 *May 5, 1978Nov 8, 1979InteratomMagnetodynamische autoelektrolyse
JP63722576A * Title not available
JPH03109989A * Title not available
JPS52108359A * Title not available
JPS63174555A * Title not available
SU1537647A1 * Title not available
Non-Patent Citations
Reference
1 *Borens, Electric Fields in Vertebrate Repair, 1989.
2Busch et al., Paper #251, Corrosion '85 (NACE), 1985.
3 *Busch et al., Paper 251, Corrosion 85 (NACE), 1985.
4 *Donaldson and Grimes, New Scientist, 18 Feb. 1988, pp. 43 46.
5Donaldson and Grimes, New Scientist, 18 Feb. 1988, pp. 43-46.
6 *Donaldson, Tube International, Jan. 1988, pp. 39 42, 49.
7Donaldson, Tube International, Jan. 1988, pp. 39-42, 49.
8 *Grimes, Tube International,Mar. 1988, pp. 111 114.
9Grimes, Tube International,Mar. 1988, pp. 111-114.
10Grutsch et al., Paper #330, Corrosion '84 (NACE), 1984.
11 *Grutsch et al., Paper 330, Corrosion 84 (NACE), 1984.
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US7004153Jun 13, 2003Feb 28, 2006Wout LisseveldFuel treatment device using a magnetic field
US7621261Feb 24, 2006Nov 24, 2009Wout LisseveldFuel treatment device using a magnetic field
Classifications
U.S. Classification210/695, 210/222
International ClassificationB01J19/08, C02F1/48
Cooperative ClassificationC02F1/481, B01J2219/0852, B01J19/087
European ClassificationC02F1/48A, B01J19/08D
Legal Events
DateCodeEventDescription
Oct 6, 2004FPAYFee payment
Year of fee payment: 12
Sep 22, 2000FPAYFee payment
Year of fee payment: 8
Nov 25, 1996ASAssignment
Owner name: ADVATECH CORPORATION, FLORIDA
Free format text: CHANGE OF NAME;ASSIGNOR:QUANTUM SYSTEMS INTERNATIONAL, INC.;REEL/FRAME:008231/0896
Effective date: 19940902
Free format text: CHANGE OF NAME;ASSIGNOR:QUANTUM SYSTEMS INTERNATIONAL, INC.;REEL/FRAME:008251/0454
Effective date: 19940930