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An apparatus for providing magnetic fluid treatment is described. The apparatus includes a serial coupling of conduit segments forming a conduit. At least two of the conduit segments are constructed of a magnetically conductive material and at least one of the conduit segments is constructed of a no

An apparatus for providing magnetic fluid treatment is described. The apparatus includes a serial coupling of conduit segments forming a conduit. At least two of the conduit segments are constructed of a magnetically conductive material and at least one of the conduit segments is constructed of a non-magnetically conductive material and positioned in between the conduit segments constructed of the magnetically conductive material to establish a non-magnetically conductive region. At least one electrical conductor encircles at least a section of the outer surface of the serial coupling of conduit segments. Energizing the electrical conductor establishes a magnetic field having lines of flux directed along a flow path of the conduit and concentrated in the non-magnetically conductive region of the conduit.

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1. An apparatus for providing magnetic fluid treatment, comprising: a serial coupling of conduit segments, the serial coupling forming a conduit having a fluid entry port, a fluid impervious boundary wall and a fluid discharge port defining a fluid impervious flow path through the conduit, at least

1. An apparatus for providing magnetic fluid treatment, comprising: a serial coupling of conduit segments, the serial coupling forming a conduit having a fluid entry port, a fluid impervious boundary wall and a fluid discharge port defining a fluid impervious flow path through the conduit, at least two of the conduit segments constructed of a magnetically conductive material and at least one of the conduit segments constructed of a non-magnetically conductive material, each conduit segment defining a fluid impervious boundary wall with an inner surface and an outer surface and having a fluid entry port at one end of the conduit segment and a fluid discharge port at the other end of the conduit segment, each magnetically conductive conduit segment establishing a magnetically conductive region and each non-magnetically conductive conduit segment establishing a non-magnetically conductive region wherein at least one non-magnetically conductive conduit segment is positioned between two magnetically conductive conduit segments; andat least one electrical conductor comprising at least one length of an electrical conducting material having a first conductor lead and a second conductor lead, the electrical conductor coiled with at least one turn to form at least one uninterrupted coil of electrical conductor encircling at least a section of the outer surface of the serial coupling of conduit segments and oriented substantially orthogonal to the fluid flow path, wherein energizing the at least one electrical conductor establishes a magnetic field having lines of flux directed along the flow path and concentrated in the non-magnetically conductive area between the fluid entry port and the fluid discharge port of the conduit. 2. The apparatus of claim 1, wherein at least one electrical conductor is coiled around the outer surface of at least one magnetically conductive conduit segment. 3. The apparatus of claim 1, wherein at least one electrical conductor is coiled around the outer surface of at least two magnetically conductive conduit segments. 4. The apparatus of claim 3, wherein a first electrical conductor forms at least one uninterrupted coil of electrical conductor encircling at least a section of the outer surface of a first magnetically conductive conduit segment and a second electrical conductor forms at least one uninterrupted coil of electrical conductor encircling at least a section of the outer surface of a second magnetically conductive conduit segment. 5. The apparatus of claim 1, further comprising at least one coil core, said coil core comprising a tubular conduit defining a boundary wall with an inner surface and an outer surface and having a port at a proximal end of the tubular conduit and a port at a distal end of the tubular conduit, the outer surface of the boundary wall receiving the at least one coiled electrical conductor and the ports at the proximal and distal ends of the tubular conduit and the inner surface of the boundary wall sleeving at least a section of the outer surface of the serial coupling of conduit segments. 6. The apparatus of claim 1, wherein at least one of the two magnetically conductive conduit segments has a tapered end, said tapered end oriented to form a coupling between the at least one of the two magnetically conductive conduit segments and a non-magnetically conductive conduit segment. 7. The apparatus of claim 1, further comprising at least one magnetically conductive sleeving conduit, each at least one magnetically conductive sleeving conduit comprising a magnetically conductive material having a boundary wall with an inner surface and an outer surface and having a port at one end of the magnetically conductive sleeving conduit and port at the other end of the magnetically conductive sleeving conduit sleeving the serial coupling of conduit segments, whereby at least a section of the inner surface of the boundary wall of the magnetically conductive sleeving conduit is coaxially disposed in substantially concentric surrounding relation to at least a section of the outer surface of the boundary wall of at least one magnetically conductive conduit segment in the serial coupling of conduit segments. 8. The apparatus of claim 7, wherein at least a section of the inner surface of the boundary wall of the magnetically conductive sleeving conduit is coaxially disposed in substantially concentric surrounding relation to at least a section of the outer surface of the boundary wall of a first segment of the magnetically conductive conduit segments, the outer surface of the boundary wall of the non-magnetically conductive conduit segment and at least a section of the outer surface of the boundary wall of a second segment of the magnetically conductive conduit segments in the serial coupling of conduit segments. 9. The apparatus of claim 7, wherein at least a section of the inner surface of the boundary wall of a first magnetically conductive sleeving conduit is coaxially disposed in substantially concentric surrounding relation to at least a section of the outer surface of the boundary wall of a first magnetically conductive conduit segment in the serial coupling of conduit segments and at least a section of the inner surface of the boundary wall of a second magnetically conductive sleeving conduit is coaxially disposed in substantially concentric surrounding relation to at least a section of the outer surface of the boundary wall of a second magnetically conductive conduit segment in the serial coupling of conduit segments. 10. The apparatus of claim 7, wherein the outer surface of at least one magnetically conductive sleeving conduit is encircled by the at least one coiled electrical conductor. 11. The apparatus of claim 7, further comprising at least one coil core encircled by the at least one coiled electrical conductor, and wherein at least a section of the inner surface of the boundary wall of at least one coil core is coaxially disposed in substantially concentric surrounding relation to at least a section of the outer surface of the boundary wall of a magnetically conductive sleeving conduit. 12. The apparatus of claim 1, further comprising at least one nucleus having an outer surface, said nucleus disposed within the serial coupling of conduit segments. 13. An apparatus for providing magnetic fluid treatment, comprising: a serial coupling of conduit segments, the serial coupling forming a conduit having a fluid entry port, a fluid impervious boundary wall and a fluid discharge port defining a fluid impervious flow path through the conduit, at least two of the conduit segments constructed of a magnetically conductive material and at least one of the conduit segments constructed of a non-magnetically conductive material, each conduit segment defining a fluid impervious boundary wall with an inner surface and an outer surface and having a fluid entry port at one end of the conduit segment and a fluid discharge port at the other end of the conduit segment, each magnetically conductive conduit segment establishing a magnetically conductive region and each non-magnetically conductive conduit segment establishing a non-magnetically conductive region wherein at least one non-magnetically conductive conduit segment is positioned between two magnetically conductive conduit segments; andat least one electrical conductor comprising at least one length of an electrical conducting material having a first conductor lead and a second conductor lead, the electrical conductor coiled with at least one turn to form at least one uninterrupted coil of electrical conductor encircling at least a section of the outer surface of the serial coupling of conduit segments, wherein energizing the at least one electrical conductor establishes a magnetic field having lines of flux directed along the flow path and concentrated in the non-magnetically conductive area between the fluid entry port and the fluid discharge port of the conduit. 14. The apparatus of claim 13, wherein at least one electrical conductor is coiled around the outer surface of at least one magnetically conductive conduit segment. 15. The apparatus of claim 13, wherein at least one electrical conductor is coiled around the outer surface of at least two magnetically conductive conduit segments. 16. The apparatus of claim 13, wherein a first electrical conductor forms at least one uninterrupted coil of electrical conductor encircling at least a section of the outer surface of a first magnetically conductive conduit segment and a second electrical conductor forms at least one uninterrupted coil of electrical conductor encircling at least a section of the outer surface of a second magnetically conductive conduit segment. 17. The apparatus of claim 13, further comprising at least one coil core, said coil core comprising a tubular conduit defining a boundary wall with an inner surface and an outer surface and having a port at a proximal end of the tubular conduit and a port at a distal end of the tubular conduit, the outer surface of the boundary wall receiving the at least one coiled electrical conductor and the ports at the proximal and distal ends of the tubular conduit and the inner surface of the boundary wall sleeving at least a section of the outer surface of the serial coupling of conduit segments. 18. The apparatus of claim 13, wherein at least one of the two magnetically conductive conduit segments has a tapered end, said tapered end oriented to form a coupling between the at least one of the two magnetically conductive conduit segments and a non-magnetically conductive conduit segment. 19. The apparatus of claim 13, further comprising at least one chemical dispersing apparatus coupled to the serial coupling of conduit segments upstream of the serial coupling of conduit segments. 20. The apparatus of claim 13, further comprising at least one chemical dispersing apparatus coupled to the serial coupling of conduit segments downstream of the serial coupling of conduit segments. 21. The apparatus of claim 13, further comprising at least one separation apparatus coupled to the serial coupling of conduit segments upstream of the serial coupling of conduit segments. 22. The apparatus of claim 13, further comprising at least one separation apparatus coupled to the serial coupling of conduit segments downstream of the serial coupling of conduit segments. 23. The apparatus of claim 13, further comprising at least one flow conditioning apparatus coupled to the serial coupling of conduit segments upstream of the serial coupling of conduit segments. 24. The apparatus of claim 13, further comprising at least one flow conditioning apparatus coupled to the serial coupling of conduit segments downstream of the serial coupling of conduit segments.