Electrolytic cell with advanced oxidation process and electro catalytic paddle electrode
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C02F-001/461
C02F-001/467
C25B-009/06
C02F-001/00
C02F-001/36
C02F-001/46
C02F-001/34
C02F-001/72
C02F-101/16
C02F-001/32
C02F-001/78
C02F-103/00
출원번호
US-0539345
(2014-11-12)
등록번호
US-10259726
(2019-04-16)
발명자
/ 주소
Fraim, Michael
Jakhete, Sanjeev
출원인 / 주소
GLOBAL WATER INVESTMENTS, LLC a Delaware Limited Liability Company
대리인 / 주소
Polley, Daniel S.
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
Electrolytically treating water through influent inlet arrangements for cavitation and one or more pairs of electrodes. The electrodes can provide continuous anodic and cathodic operation for treating water. The pressurized influent premixed with oxidant gas can be pumped into the reactor vessel thr
Electrolytically treating water through influent inlet arrangements for cavitation and one or more pairs of electrodes. The electrodes can provide continuous anodic and cathodic operation for treating water. The pressurized influent premixed with oxidant gas can be pumped into the reactor vessel through the mixing nozzles arranged radially along the circumference. The polarity of the current to the electrode can be periodically reversed at a set interval. An electro-catalytic paddle electrode can be used for the treatment of flowback and produced water. The paddle electrode can consists of alternate pentagonal flat plate electrodes separated by adjustable variable distance Teflon spacers. The paddle electrode is provided with a chemical coating capable of switching/reversing the polarity of anodes and cathodes at ultra high frequencies under very high current flowing conditions thus making it more efficient, stable and durable under demanding field conditions.
대표청구항▼
1. A electro-catalytic paddle electrode assembly disposed within a tank or reactor for creating hydroxyl radicals for treatment of a fluid traveling through the tank or reactor, the tank or reactor having an internal treating area and having a plurality of inlet nozzles with each of the plurality of
1. A electro-catalytic paddle electrode assembly disposed within a tank or reactor for creating hydroxyl radicals for treatment of a fluid traveling through the tank or reactor, the tank or reactor having an internal treating area and having a plurality of inlet nozzles with each of the plurality of inlet nozzles disposed at an end of an associated one piping outlet of a plurality of piping outlets, wherein the plurality of piping outlets serving as inlets for influent water into the tank or reactor, comprising: a plurality of flat plate electrodes, each plate electrode having a short side and a long side, wherein the plurality of plate electrodes arranged in a pattern where the short side of adjacent flat plate electrodes of the plurality of flat plate electrodes alternate from being either disposed in a lower position or an upper position and such that there is an equal number of plate electrodes in a lower position as compared to a number of plate electrodes in an upper position, each flat plate electrode of the plurality of flat plate electrodes having its short side located at a same first end as all other flat plate electrodes of the plurality of flat plate electrodes regardless of whether the short side is in the upper position or the lower position, each of the plurality of flat plate electrodes having a plurality of apertures therethrough with a first aperture of the plurality of apertures being located at the short side of the flat plate electrode and a second aperture of the plurality of apertures being located at the long side of the flat plate electrode, each flat plate electrode having a same number of apertures and having a same shape as the other flat plate electrodes of the plurality of flat plate electrodes;a plurality of insulated rods, each rod of the plurality of insulated rods inserted through a corresponding one of the apertures of the flat plate electrodes for holding the plurality of flat plate electrodes together;a plurality of insulator spacers, each of the plurality of insulated spacers having an internal passageway, wherein a rod of the plurality of insulated rods is inserted through the internal passageway of an insulated spacer such that the plurality of insulated spacers are disposed on a corresponding rod and are disposed between adjacent plate electrodes being held together by the plurality of insulated rods for separating the plate electrodes from each other;a pair of metal rods, a first of the pair of metal rods inserted through the first apertures of the flat plate electrodes having the short side in the lower position and a second of the pair of metal rods inserted through the first aperture of the flat plate electrodes having the short side in the upper position; anda pair of anode/cathode rods, a first of the pair of anode/cathode rods connected at a first end directly to the first of the pair of metal rods and a second of the pair of anode/cathode rods connected at a first end directly to the second of the pair of metal rods such that the first anode/cathode rod is electrically connected to the flat plate electrodes having the short side in the lower position and the second anode/cathode rod is electrically connected to the flat plate electrodes having the short side in the upper position;wherein the plurality of flat plate electrodes, plurality of insulated rods, plurality of insulator spacers, pair of metal rods and pair of anode/cathode rods are all housed within the tank or reactor that a fluid travels for fluid treatment;wherein only one metal rod is used for electrically connected all of the plate electrodes serving as cathodes and only one metal rod is used for electronically connecting all of the plate electrodes serving as anodes. 2. The electro-catalytic paddle electrode assembly of claim 1 wherein said insulator spacers constructed from a corona resistant polytetrafluoroethylene material. 3. The electro-catalytic paddle electrode of claim 1 wherein the insulator spacers are adjustable in length or are of differing lengths to provide for an adjustable variable distance between adjacent plates. 4. The electro-catalytic paddle electrode of claim 1 wherein an outer surface of all of the flat plate electrodes are provided with outward extending protrusions to generate microturbulance and microeddies locally around the electrode. 5. The electro-catalytic paddle electrode assembly of claim 1 wherein each of the plates having a polarity and the polarity of alternate plates are switched back and forth from positive to negative and negative to positive at ultra high frequency rate in the range of about 1 kHz-20 kHz at very high current flows of about 200-2000 ampere using DC voltage and DC current. 6. The electro-catalytic paddle electrode assembly of claim 1 further comprising a chemical coating of about 10-100 μm thickness applied on a surface of each of the plate electrode. 7. The electro-catalytic paddle electrode assembly of claim 6 wherein the chemical coating is a mixture of Iridium Oxide, Ruthenium Oxide, Titanium Dioxide, and Platinum Oxide reacted in definite proportions in a presence of conductive polycrystalline diamond such that the electrodes with the chemical coating applied can withstand ultra high frequency switching of polarities at current flowing capacities of about 2000 Amperes. 8. The novel electro-catalytic paddle electrode assembly of claim 6 wherein the chemical coating acts as a catalyst producing additional oxidizing species in untreated fluid. 9. The electro-catalytic paddle electrode assembly of claim 6 wherein the chemical coatings is applied with a polycrystalline conductive diamond layer along the surface of the electrode to further increase the conductivity and stability of the electrode. 10. The electro-catalytic paddle electrode assembly of claim 1 wherein the fluid being treated within the tank or reactor is flow back produced water from oil and gas production fields, H2S/Mercaptan contaminated water from refineries, hospital waste water or municipal waste water. 11. The electro-catalytic paddle electrode assembly of claim 10 wherein treatment of the fluid occurring at the electrodes within the tank or reactor is precipitation or generation of oxidizing and reducing species such as radicals or molecules or ions or the combination of both. 12. The electro-catalytic paddle electrode assembly of claim 10 wherein said plate electrodes generating in situ oxidizing and reducing species to eliminate undesired constituents in untreated fluid streams and converting high TDS untreated fluid into low TDS treated fluid. 13. The electro-catalytic paddle electrode assembly of claim 1 wherein said plate electrodes are spaced apart at a distance having a range from about 0.5 inches to about 2.0 inches along the insulated rods by the insulator spacers. 14. The electro-catalytic paddle electrode assembly of claim 1 further comprising a chemical coating of about 10-100 μm thickness applied on a surface of the plate electrode, wherein the chemical coating is a mixture of Iridium Oxide, Ruthenium Oxide, Titanium Dioxide, and Platinum Oxide and the chemical coating acts as a catalyst producing additional oxidizing species in untreated fluid; wherein the chemical coatings is applied with a polycrystalline conductive diamond layer along the surface of the electrode to further increase the conductivity and stability of the electrode. 15. The electro-catalytic paddle electrode assembly of claim 1 wherein each plate electrode including a first straight edge having first end and a second end, a second straight edge having a first end and a second end, a third straight edge having a first end and a second end, a fourth straight edge having a first end and a second end and a fifth straight edge having a first end and a second, for each plate electrode a first end of the second straight edge terminating at the second end of first straight edge a first end of the third straight edge terminating at the second end of the second straight edge a first end of the fourth straight edge terminating at the second end of the third straight edge, a first end of the fifth straight edge terminating at the second end of the fourth straight edge and a first end of the first straight edge terminating at the second end of the fifth straight edge. 16. The electro-catalytic paddle electrode assembly of claim 1 wherein the insulator spacers having a length such that a space between adjacent flat plate electrodes of the plurality of flat plate electrodes is maintained at a distance from at least about 0.2 inches or greater. 17. The electro-catalytic paddle electrode assembly of claim 1 further comprising a plurality of metal spacers, each of the plurality metal spacers disposed on either the first metal rod or the second metal rod for providing electrical communication between the first metal rod and the second metal rod and the plate electrodes, the metal spacers coated with an electrocatalytic coating. 18. The electro-catalytic paddle electrode assembly of claim 1 further comprising a plurality of insulated nuts and a plurality of metal nuts, each of the plurality of insulated nuts secured at one end of one of the plurality of insulated rods and each of the plurality of metal nuts secured at one of end of one of the plurality of metal rods. 19. The electro-catalytic paddle electrode assembly of claim 1 further comprising a DC power supply having a positive and negative polarity outlet, wherein the plurality of anode/cathode rods are electrically connected to the DC power supply at the positive and negative polarity outlet of the DC power supply. 20. The electro-catalytic paddle electrode assembly of claim 19 wherein the DC power supply programmed to reverse polarity of the power supply at a set frequency of 1 kHz to 20 KHz causing a polarity of each of the plurality of flat plate electrodes to switch with each polarity reverses of the DC power supply creating a self cleaning capability for the electrodes and reactor by preventing scale build up within the tank or reactor or on the plurality of electrodes. 21. The electro-catalytic paddle electrode assembly of claim 1 wherein each flat plate electrode having a convex irregular pentagonal shape. 22. The electro-catalytic paddle electrode assembly of claim 1 wherein when all of the plurality of flat plate electrodes and plurality of metal rods are properly assembled all apertures of the plurality of apertures are filled by one of the plurality of metal rods or one of the plurality of insulating rods. 23. A electro-catalytic paddle electrode assembly disposed within a tank or reactor for creating hydroxyl radicals for treatment of a fluid traveling through the tank or reactor, the reactor tank having an internal treating area and having aft a plurality of inlet nozzles with each of the plurality of inlet nozzles disposed at an end of an associated one piping outlet of a plurality of piping outlets, wherein the plurality of piping outlets serving as inlets for influent water into the tank or reactor, comprising: a plurality of flat plate electrodes, each plate electrode having a short side and a long side, wherein the plurality of plate electrodes arranged in a pattern where the short side of adjacent flat plate electrodes of the plurality of flat plate electrodes alternate from being either disposed in a lower position or an upper position, each flat plate electrode of the plurality of flat plate electrodes having its short side located at a same first end as all other flat plate electrodes of the plurality of flat plate electrodes regardless of whether the short side is in the upper position or the lower position, each of the plurality of flat plate electrodes having a plurality of apertures therethrough with a first aperture of the plurality of apertures being located at the short side of the flat plate electrode and a second aperture of the plurality of apertures being located at the long side of the flat plate electrode, each of the electrodes having an outer surface;a plurality of insulated rods, each rod of the plurality of insulated rods inserted through a corresponding one of the apertures of the flat plate electrodes for holding the plurality of flat plate electrodes together;a plurality of insulator spacers, each of the plurality of insulated spacers having an internal passageway, wherein a rod of the plurality of insulated rods is inserted through the internal passageway of an insulated spacer such that the plurality of insulated spacers are disposed on a corresponding rod and are disposed between adjacent plate electrodes being held together by the plurality of insulated rods for separating the plate electrodes from each other;a pair of metal rods, a first of the pair of metal rods inserted through the first apertures of the flat plate electrodes having the short side in the lower position and a second of the pair of metal rods inserted through the first aperture of the flat plate electrodes having the short side in the upper position; anda pair of anode/cathode rods oriented perpendicular to the, a first of the pair of anode/cathode rods connected at a first end directly to the first of the pair of metal rods and a second of the pair of anode/cathode rods connected at a first end directly to the second of the pair of metal rods such that the first anode/cathode rod is electrically connected to the flat plate electrodes having the short side in the lower position and the second anode/cathode rod is electrically connected to the flat plate electrodes having the short side in the upper position;wherein the plurality of flat plate electrodes, plurality of insulated rods, plurality of insulator spacers, plurality of metal rods and plurality of anode/cathode rods are all housed within the tank or reactor that a fluid travels for fluid treatment;wherein the outer surface of the plurality of plate electrodes are sterilized by turbulence created by hydrodynamic cavitation of fluid within the tank or reactor at the inlet nozzle which results in organic contamination breakdown or removal from the outer surface of the plurality of plate electrode,wherein each of the plate electrodes having the same shape and dimensions regardless of whether the plate electrode is being used as a cathode or an anode;wherein a certain amount of plate electrodes are used as anodes and an equal amount of plate electrodes are used as cathodes to provide for a balanced and uniformed current distribution across the anode and cathode;wherein only one metal rod is used for electrically connected all of the plate electrodes serving as cathodes and only one metal rod is used for electronically connecting all of the plate electrodes serving as anodes. 24. The electro-catalytic paddle electrode assembly of claim 23 wherein each of the plates having a polarity and the polarity of alternate plates are switched back and forth from positive to negative and negative to positive at ultra high frequency rate in the range of about 1 kHz-20 kHz at very high current flows of about 200-2000 ampere using DC voltage and DC current.
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이 특허에 인용된 특허 (5)
Kim, Chil-Young, Apparatus for manufacturing sterilized water, and portable apparatus for manufacturing sterilized salt solution.
Gale Stephen B. (Williamsville NY) O\Donnell Phillip P. (Buffalo NY) Bruckenstein Stanley (Williamsville NY), Method and apparatus for electrochemical contaminant removal from liquid media.
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