Method for increasing gas components in a fluid
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01J-019/00
B01D-017/04
B01D-017/12
C02F-001/44
B01D-061/10
C02F-003/12
C12M-001/00
C12M-001/36
C10L-010/02
C04B-040/00
B01J-019/08
B01F-005/04
B01F-005/00
B01F-003/04
C02F-001/00
C02F-001/48
B01D-053/78
B01D-053/60
B01F-015/00
C10M-173/02
C10M-113/02
B01D-053/18
C02F-103/08
C02F-001/76
출원번호
US-0476159
(2017-03-31)
등록번호
US-10258952
(2019-04-16)
발명자
/ 주소
Dove, Larry John
Von Krosigk, James
출원인 / 주소
Dove, Larry John
대리인 / 주소
Buskop Law Group, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
23
초록▼
An apparatus for increasing gas components in a fluid uses a controller connected to a network and client device for remote control of fluid flow rates, magnet field intensity, and pressure of fluid based on preset parameters. Conductive wire coiled around a magnet fluid treatment device generates a
An apparatus for increasing gas components in a fluid uses a controller connected to a network and client device for remote control of fluid flow rates, magnet field intensity, and pressure of fluid based on preset parameters. Conductive wire coiled around a magnet fluid treatment device generates a bidirectional magnetic flux to magnetically treat fluid in the conduit at an entry pressure. A variable frequency generator energizes the wire creating magnetic flux lines to pass through the fluid flow conduit. A gas injector receives fluid at the gas injector entry pressure and lowers the gas injector entry pressure of the fluid to a gas injector discharge pressure. A treatment chamber receives the fluid at a treatment chamber entry pressure and lowers the treatment chamber entry pressure to a treatment chamber discharge pressure. The apparatus causes absorption of increased gas component into the fluid by from 10% to at least 500%.
대표청구항▼
1. A method for increasing gas components in a fluid, comprising: a. communicating between a controller having a processor and data storage in communication with a network and a client device for bidirectional remote control of a fluid flow rate, a magnetic field intensity, and a plurality of pressu
1. A method for increasing gas components in a fluid, comprising: a. communicating between a controller having a processor and data storage in communication with a network and a client device for bidirectional remote control of a fluid flow rate, a magnetic field intensity, and a plurality of pressures of the fluid based on preset parameters;b. generating a bidirectional flux using an antenna with a magnet fluid treatment device wherein both the antenna and the magnetic fluid treatment device encircle at least a portion of a fluid flow conduit to magnetically treat the fluid in the fluid flow conduit;c. flowing the fluid in the fluid flow conduit at an entry pressure and passing past the antenna to an outlet at a discharge pressure;d. transmitting a frequency from 0.01 Hz to 12,500,000 Hz activating the antenna to generating a magnetic field having flux lines to pass through the fluid flow conduit with a variable frequency generator in communication with the controller;e. flowing the fluid into a mixing chamber of a gas injector, the mixing chamber receiving the fluid at the gas injector entry pressure, the gas injector comprising a fluid outlet and a gas inlet, the gas inlet being connected to a gas source, the mixing chamber lowering the gas injector entry pressure of the fluid to a gas injector discharge pressure; andf. flowing the fluid from the gas injector to a treatment chamber having a primary chamber and a secondary chamber, with a vortex inducing apparatus positioned between the primary chamber and the secondary chamber, the treatment chamber receiving the fluid at a treatment chamber entry pressure and then lowering the treatment chamber entry pressure to a treatment chamber discharge pressure, causing absorption of an increased gas component into the fluid from 10% to 500% and wherein the fluid entering the treatment chamber increases in saturation. 2. The method of claim 1, comprising: the step of using a plurality of sensors to penetrate the fluid flow conduit to detect pressure in a fluid, the plurality of sensors connected to the controller communicating with the network to the client device, the controller configured to instruct the processor to monitor and store the entry pressure, discharge pressure and gas injector entry pressure, gas injector discharge pressure and treatment chamber entry pressure, and the treatment chamber discharge pressure and compare the measured pressures to preset parameters stored in the data storage. 3. The method of claim 1, further comprising using a pre-treatment electrostatic magnetic assembly with a pretreatment electrostatic magnet having at least one permanently magnetized magnet with magnetic anisotropy and magnetic coercively with magnetic moments due to upward electrons, the pre-treatment electrostatic magnetic assembly receiving the fluid at the entry pressure, passing the fluid at the entry pressure past at least one permanently magnetized magnet to modify fluid surface tension enabling increased absorption of the gas components. 4. The method of claim 1, further comprising using a flow meter connected to the controller to measure flow through a pre-treatment electrostatic magnetic assembly and transmit the measured flow to the controller. 5. The method of claim 1, further comprising using a pump electrically connected to the controller to pump fluid through the fluid flow conduit, the pump consisting of: a centrifugal pump or a piston fluid pump. 6. The method of claim 1, wherein the gas source is a generator connected to the gas injector for providing at least one of oxygen, ozone, nitrogen, hydrogen, sulfur, carbonates, and carbon monoxide. 7. The method of claim 1, further comprising using a silicate based media contained within the primary chamber of the treatment chamber. 8. The method of claim 1, wherein the silicate based media is contained within the secondary chamber of the treatment chamber. 9. The method of claim 1, wherein the gas injector is a Venturi injector. 10. The method of claim 1, wherein the vortex inducing apparatus which creates a vortex within the treatment chamber enhances the effect that lowering the pressure causes on dissolving gas components into the fluid wherein the fluid entering the treatment chamber increases in saturation.
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이 특허에 인용된 특허 (23)
Pincon Andrew J. (1819 Grand Ave. Chicago IL 60602), Activated oxygen product and water treatment using same.
Mitchell ; deceased John (33 Pondview Rd. late of Palm Springs CA) Ament ; executor by Charles E. (33 Pondview Rd. Rye NY 10580), Apparatus and system for magnetically treating fluids.
Stickler Raymond E. (9909 W. Hawthorne Mequon WI 53092) Eggerichs Terry L. (2604 W. Rogers Milwaukee WI 53215) Larson Kenneth J. (320 Joanne Dr. Brookfield WI 53005), Electromagnetic water treating device.
Von Krosigk,James Richard; Dove,Larry John, Method for treating a fluid to increase oxygen concentration and reduce surface tension using a direct current generator or an electromagnetic field generator.
Von Krosigk, James Richard; Dove, Larry John, Method for treating a fluid to increase oxygen concentration and reduce surface tension using a radio frequency generator.
Von Krosigk,James Richard; Dove,Larry John, Method for treating a living organism using a fluid with increased oxygen concentration and reduced surface tension.
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