Magnetic field processor for conditioning fluids
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C02F-001/48
B01D-035/06
출원번호
US-0487922
(2012-06-04)
등록번호
US-8349178
(2013-01-08)
발명자
/ 주소
Lopes, William Steven
출원인 / 주소
Lopes, William Steven
대리인 / 주소
Jafari Law Group, Inc.
인용정보
피인용 횟수 :
1인용 특허 :
21
초록▼
The invention is a process that utilizes a device or processor that includes an elongated housing comprising a core enclosed by a magnetic component in combination with an electrical return path, which affects the electrons within fluids, thereby separating, for example, metals and organic or inorga
The invention is a process that utilizes a device or processor that includes an elongated housing comprising a core enclosed by a magnetic component in combination with an electrical return path, which affects the electrons within fluids, thereby separating, for example, metals and organic or inorganic materials from fluids, in order to achieve desired fluid composition and properties.
대표청구항▼
1. A fluid conditioning processor, comprising: a first elongated housing containing a first fluid;a second elongated housing adapted to guide a second fluid from an input end in and through an output end, wherein said first elongated housing is situated within said second elongated housing; anda thi
1. A fluid conditioning processor, comprising: a first elongated housing containing a first fluid;a second elongated housing adapted to guide a second fluid from an input end in and through an output end, wherein said first elongated housing is situated within said second elongated housing; anda third elongated housing including a plurality of staggered magnets in a longitudinal direction in relation to said first, second and third housings;wherein the first fluid comprises an inert gas or a non-electrically conductive fluid. 2. The fluid conditioning processor of claim 1, wherein the plurality of staggered magnets includes a plurality of non-electrically conductive spacers situated between respective staggered magnets. 3. The fluid conditioning processor of claim 1, further comprising an electrical conductive member placed in electrical contact with said first elongated housing and to an electrical potential less than the potential of said first elongated housing so that electrical charges are removed from said first elongated housing. 4. The fluid conditioning processor of claim 1, wherein said inert gas comprises Argon. 5. The fluid conditioning processor of claim 3, wherein said electrical potential is ground. 6. The fluid conditioning processor of claim 3, wherein the electrical conductive member further comprises a ground rod. 7. The fluid conditioning processor of claim 6, wherein the ground rod is substantially enclosed by an outer surface coating. 8. The fluid conditioning processor of claim 7, wherein the ground rod further comprises an outer surface cast with a conical-shaped end portion. 9. The fluid conditioning processor of claim 8, wherein the outer surface cast and conical-shaped end portion are comprised of zinc. 10. The fluid conditioning processor of claim 1, wherein said third elongated housing is situated within said second elongated housing and encloses said first elongated housing. 11. The fluid conditioning processor of claim 1, wherein said third elongated housing encloses said second elongated housing. 12. The fluid conditioning processor of claim 1, wherein said plurality of staggered magnets are configured in alternating polarities. 13. The fluid conditioning processor of claim 1, wherein said plurality of staggered magnets are configured in non-alternating polarities. 14. A fluid conditioning processor for eliminating microbial growth in a second fluid, comprising: a first elongated housing containing a first fluid;a second elongated housing adapted to guide the second fluid from an input end in and through an output end, wherein said first elongated housing is situated within said second elongated housing;a third elongated housing including a plurality of staggered magnets in a longitudinal direction in relation to said first, second and third housings; andan electrical conductive member placed in electrical contact with said first elongated housing and to an electrical potential less than the potential of said first elongated housing so that electrical charges are removed from said first elongated housing; wherein the first fluid comprises an inert gas or a non-electrically conductive fluid. 15. The fluid conditioning processor of claim 14, wherein the plurality of staggered magnets includes a plurality of non-electrically conductive spacers situated between respective staggered magnets. 16. The fluid conditioning processor of claim 14, wherein said inert gas comprises Argon. 17. The fluid conditioning processor of claim 14, wherein said electrical potential is ground. 18. The fluid conditioning processor of claim 14, wherein said plurality of staggered magnets are configured in a manner so that said magnets are in non-alternating polarities. 19. The fluid conditioning processor of claim 18, wherein said non-alternating polarities include magnets staggered in an all north or positive configuration so as to promote an anti-microbial environment. 20. A fluid conditioning processor for promoting microbial growth in a second fluid, comprising: a first elongated housing containing a first fluid;a second elongated housing adapted to guide a second fluid from an input end in and through an output end, wherein said first elongated housing is situated within said second elongated housing;a third elongated housing including a plurality of staggered magnets in a longitudinal direction in relation to said first, second and third housings; andan electrical conductive member placed in electrical contact with said first elongated housing and to an electrical potential less than the potential of said first elongated housing so that electrical charges are removed from said first elongated housing; wherein the first fluid comprises an inert gas or non-electrically conductive fluid. 21. The fluid conditioning processor of claim 20, wherein the plurality of staggered magnets includes a plurality of non-electrically conductive spacers situated between respective staggered magnets. 22. The fluid conditioning processor of claim 20, wherein said inert gas comprises Argon. 23. The fluid conditioning processor of claim 20, wherein said electrical potential is ground. 24. The fluid conditioning processor of claim 20, wherein said plurality of staggered magnets are configured in a manner so that said magnets are staggered in non-alternating polarities, and wherein said non-alternating polarities include magnets staggered in an all south or negative configuration so as to promote a pro-microbial environment.
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이 특허에 인용된 특허 (21)
Schoepe Adolf (Fullerton CA), Apparatus for magnetically treating water.
Clair Colonel (P.O. Box 94321 Las Vegas NV 89199), Magnet assembly with concentrator for providing flux lines perpendicular to fluid flow direction within steel pipe.
Clair Colonel (P.O. Box 94321 Las Vegas NV 89199), Magnetic source and condenser for producing flux perpendicular to gas and liquid flow in ferrous and nonferrous pipes.
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