US1461238A - Ozonizer - Google Patents

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US1461238A
US1461238A US540848A US54084822A US1461238A US 1461238 A US1461238 A US 1461238A US 540848 A US540848 A US 540848A US 54084822 A US54084822 A US 54084822A US 1461238 A US1461238 A US 1461238A
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electrodes
ozone
ozonizer
insulator
jet opening
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    • CCHEMISTRY; METALLURGY
    • C01INORGANIC CHEMISTRY
    • C01BNON-METALLIC ELEMENTS; COMPOUNDS THEREOF; METALLOIDS OR COMPOUNDS THEREOF NOT COVERED BY SUBCLASS C01C
    • C01B13/00Oxygen; Ozone; Oxides or hydroxides in general
    • C01B13/10Preparation of ozone
    • C01B13/11Preparation of ozone by electric discharge
    • CCHEMISTRY; METALLURGY
    • C01INORGANIC CHEMISTRY
    • C01BNON-METALLIC ELEMENTS; COMPOUNDS THEREOF; METALLOIDS OR COMPOUNDS THEREOF NOT COVERED BY SUBCLASS C01C
    • C01B2201/00Preparation of ozone by electrical discharge
    • C01B2201/10Dischargers used for production of ozone
    • CCHEMISTRY; METALLURGY
    • C01INORGANIC CHEMISTRY
    • C01BNON-METALLIC ELEMENTS; COMPOUNDS THEREOF; METALLOIDS OR COMPOUNDS THEREOF NOT COVERED BY SUBCLASS C01C
    • C01B2201/00Preparation of ozone by electrical discharge
    • C01B2201/20Electrodes used for obtaining electrical discharge
    • C01B2201/22Constructional details of the electrodes
    • CCHEMISTRY; METALLURGY
    • C01INORGANIC CHEMISTRY
    • C01BNON-METALLIC ELEMENTS; COMPOUNDS THEREOF; METALLOIDS OR COMPOUNDS THEREOF NOT COVERED BY SUBCLASS C01C
    • C01B2201/00Preparation of ozone by electrical discharge
    • C01B2201/70Cooling of the discharger; Means for making cooling unnecessary
    • C01B2201/74Cooling of the discharger; Means for making cooling unnecessary by liquid
    • C01B2201/76Water

Definitions

  • My invention relates to improvements in ozonizers, and more particularly to that class or type designed to convert oxygen into ozone for commercial use such as bleaching, like.
  • the primary object of my invention is to provide a generally improved ozonizer of the class or type indicated which will be exceedingly simple in construction, cheap of manufacture, and eflicient in use.
  • a further and very important object is the provision of an improved water jacketed insulator vessel or dome together with purifying, sterlizing,- and the an improved construction and arrangement of insulator base or support having an improved nozzle or jet opening adapted to cooperate with the improved electrode.
  • a still further object is the provision of an improved form and arrangement of electrodes spaced a suitable distance apart to provide a silent discharge gap above the nozzle or jet opening in co-operative relation to the latter.
  • a still further object is the provision of an improved electrode for ozonizers of an improved form and composition.
  • the improved electrode is preferably of triangular shape in cross section to provide sharp in terchangeable arcing edges, the electrodes being arranged in downwardly converging relation to each other and spaced apart at their converged ends to form a discharge gap immediately above the nozzle or jet opening and diverging upwardly to create a diminishing discharge zone.
  • a still further object is the provision of an improved arrangement and mounting of the electrodes relative to the ox'ygen nozzle or jet opening, the latter beingmade a part of the insulator electrode support and the arrangement being such that'the converging ends of the electrodes are immediately above the jet opening thereby providing a constant arcing of the electric current upon the jet of oxygen or air so that all of it passes through the arc and is therefore converted into ozone.
  • Figure l is a central vertical sectional view of an ozonizer constructed in accordance with this invention.
  • Fig. 2 a view, partly in side elevation and partly in section, of the dome portion of the insulator vessel or ozone receiver turned a quarter turn from that shown in Fig. 1 to more clearly illustrate the relative arrangement of the ozone intercepting and cooling water circulating cross tubes.
  • FIG. 3 an enlarged rear edge view of one of the improved electrodes and holders, detached.
  • Fig. 4 a side elevation of the same.
  • Fig. 5 a plan view of one of the electrodes, detached.
  • Fig. 6 an enlarged top plan view of the insulator base, detached, and illustrating in particular the elongated nozzle or oxygen inlet jet opening.
  • the improved ozonizer comprises a suit-' able base or support 1, provided, in the present instance, with a plurality of upwardly extending equally spaced supporting posts or columns 1*, said posts 1 being adapted to removably support or carry a sub-base 1", the latter, in the present instance, being no of disc shape and provided with a central opening 1, and a'plurality of bolt receiw ing openings 1".
  • the improved insulator .vessel or ozone receiver 2 comprises a base portion provided with an annular base flange 2", and is provided at its top with a dome portion 2*.
  • the vessel or receiver 2 is preferably formed of glass as shown, but may be formed of some other suitable insulating material and as a means of maintaining the ozone within the chamber 2, at a temperature as much below 212 Fahrenheit as possible and providing for a substantially uniform temperature of the vessel the latter is preferably provided with outer and inner walls 2 and 2 respectively, forming an annular water circulating space 2, the latter communicatingwith an inlet neck 2, provided with a conductor tube or hose 2 communicating with a suitable source of fresh water supply, the upper portion of the dome being provided .with an outlet neck or nipple 2, provided with a flexible pipe or hose 2, for the outlet of the heated water after it has passed through the water passage.
  • the inner wall 2 is provided with a plurality of cross water circulating pipes or tubes 2 As a means of providing for the outflow or conveyance of the ozone to the desired place of use or storage.
  • the dome portion is provided with an outlet neck 2*, the latter, in the present instance, being provided with a flexible conduit pipe 2.
  • a two-part flanged clamping ring 4 may be provided, said ring 4 being provided with suitable bolt receiving openings to receiving clamping bolts 5 threaded into suitable threaded openings in the posts or supports 1.
  • the insulator base 6 is provided with a suitable hub or neck portion having an interior opening terminating at its top in an upwardly tapered outlet or dome portion 6', the latter terminating in an elongated or slotted fresh air or oxygen jet opening 6".
  • a vertically extending delivery tube 7 is threaded in the central threaded opening 1 of the sub-base and as a means of insulating and sealing the tube 7 with respect to" the insulator base 6 a rubber gasket 8, surrounds the tube 'i' and is interposed between the insulator and the base plate 1".
  • the delivervtube 7 is connected to a suitable fresh air supply or oxygen pipe 9 leading to a suitable source of supply.
  • the insulator base is provided with arms having slots 6, the latter being adapted to removably and adjustably receive electrode supports 10, the latter, in the present instance, being in the specific form of upwardly extending sup-l porting stems or arms terminating at their tops in clamping heads 10 the lower ends of the arms or supports 10 being threaded and being connected and clamped by means of washers 11, and clamping nuts 12.
  • the electrode supports 10 are provided with suitable conductors 13, suitably connected to suitable conductors 14:, arranged within suitable high potential insulators 15, the conducting portions 14 of the insulators 15 being connected to the conductors or terminals 16, leading to the transformer.
  • the clamping heads 1O are provided with undercut sides conforming to the form of the inclined sides of the improved electrodes hereinafter referred to, said clamping heads-10 being provided with clamping screws 17 and nuts 17, as shown most clearly in Figs. 3 and 4 of the drawings.
  • the electrodes are of substantially triangular shape in cross section thereby presenting relatively sharp edges 18, and relatively sharp terminal points 18", so that when the electrodes are arranged in downwardly converging relation as shown most clearly in Fig. 1 of the drawings the terminal points 18 will .be disposed immediately above the jet opening 6 and the oppositely arranged sharp edges 18 extending upwardly and in diverging relation will crcate a diminishing discharge zone upwardly from the jet opening and between the electrodes.
  • the electrodes 18 are preferably made of platinoid or tungsten and it will be understood that the electrodes may be readily reversed or interchanged to bring the sharp edges 18 into opposite relation to present a new discharge edge whenever desired, this interchangeable relation resulting in econ omv in the renewal of parts.
  • An ozon -zer electrode having relatively sharp edges resulting inhigh concentration of electrical discharge at such edges.
  • An ozonizer electrode having relatively sharp interchangeable side discharge edges providing relatively high current density at such edges.
  • an insulated water jacketed vessel of vitreous material forming an ozone receiving chamber.
  • a water jacketed vitreous vessel including an outlet dome forming an ozone receiving chamber.
  • an insulated water jacketed vessel forming an ozone receiving chamber and provided with ozone intercepting and cooling water circulating tubes.
  • a pair of angular shaped electrodes arranged in converging relation and terminating in pointed portions forming a discharge gap.
  • a pair of angular shaped electrodes arranged in converged relation and spaced apart forming a silent discharge gap providing an upwardly diminishing discharge zone.
  • an insulator vessel forming an ozone receiving chamber and provided with an ozone outlet dome and subjacent' water circulating cross tubes adapted to intercept and cool the ozone as formed and passed to said outlet dome.
  • an insulated support provided with an oxygen inlet jet opening, electrode supports carried by said insulated support, and electrodes arranged in downwardly converging relation and terminating in a discharge gap above said inlet jet opening.
  • an ozonizer the combination with an insulator support provided with an elongated oxygen inlet opening; of electrodes of angular shape having relatively sharp edges arranged in downwardly converging rela-- tion above and longitudinally of said elongated oxygen inlet opening.
  • an ozonizer the combination with an insulator base having an elongated oxygen inlet Opening; of a pair of upwardly diverging electrodes spaced apart forming an upwardly diminishing discharge zone above and in a plane with said elongated inlet opening to convert the oxygen into ozone.
  • an insulator electrode support provided with a tapered oxygen inlet portion' terminating in a jet opening, electrode supports on said insulator electrode support, and electrodes arranged in downwardly converging relation provided with relatively sharp edges forming a diverging discharge gap of relatively high current density.
  • an insulator vessel provided with an oxygen inlet nozzle and spaced inwardly tapered electrodes for converting. the oxygen into ozone, said vessel having spaced walls forming a water circulating insulating passage and being provided with ozone cooling cross water circulating tubes above said electrodes.
  • a support In an ozonizer, a support, an insulator base on said support provided with a jet opening, electrodes carried by said insulator support and spaced apart to provide a discharge gap above said jet opening, and a water jacketed insulator vessel forming an ozone receiving chamber above said electrodes and provided with an ozone conducting outlet.
  • a support In an ozonizer, a support, an insulator base on said support provided with a jet opening, electrodes having upwardly diverging sharp edges spaced apart providing a silent discharge gap above said jet opening, and a water jacketed insulator vessel forming an ozone receiving chamber above said electrodes and provided with an ozone conducting outlet.
  • An ozonizer comprising a supporting base, an insulating vessel forming a chamber and provided with a dome having an ozone outlet, an insulator electrode support provided with an elongated oxygen jet opening, converging electrodes forming a gas gap above said elongated oxygen jet opening,
  • an insulator support In an ozonizer, an insulator support, an insulator base provided with a jet opening, means for conducting oxygen to said jet opening, electrodes carried by said insulator base and spaced apart providing a discharge gap above said jet opening, a water jacketed receiver extending above and surrounding said nozzle and electrodes.
  • a dome shaped insulator vessel provided with an oxygen inlet
  • nozzle and spaced electrodes having downwardly converging edges forming a discharge gap for converting the oxygen into ozone, said vessel having inner and outer spaced walls forminga Water circulating passage and having cross Water circulating tubes above said electrodes to intercept and cool the ozone arising from the latter.
  • an insulator support an insulator base provided with a jet ope-ning, means for conducting oxygen to said jet opening, electrodes carried by said insulator base and spaced. apart providing a discharge gap above said jet opening, a water jacketed insulator vessel mounted above said base and forming an ozone receiving chamber above said nozzle and about said electrodes, and means for conveying ozone from said chamber.
  • An ozonizer comprising a supporting base, an insulator vessel forming a chamber and provided with spaced water circulating Walls including an ozone outlet dome, an 'insulator electrode support provided with a slotted jet opening, electrodes provided with a discharge gap above said jet opening, means for passing an electric current between said electrodes, and means for conveying water to and from said water circulating Walls.

Description

July 10, 1923.
M. W. WILLSON OZONIZER Filed March 5. 1922 Patented July 10, 1923.
1,461,238 PATENT OFFICE.
MENDAL W. WILLSON, OF MOUNT CARMEL, ILLINOIS.
oz'omzna.
Application filed March 3, 1922. Serial No. 540,848.
To all whom it my concern:
Be it known that I, MENDAL W. WILLsoN, a citizen of the United States, residing at Mount Carmel, in the county of Wabash and State of Illinois, have invented certain new and useful Improvements in Ozonizers, of which the following is a specification.
My invention relates to improvements in ozonizers, and more particularly to that class or type designed to convert oxygen into ozone for commercial use such as bleaching, like.
The primary object of my invention is to provide a generally improved ozonizer of the class or type indicated which will be exceedingly simple in construction, cheap of manufacture, and eflicient in use.
A further and very important object is the provision of an improved water jacketed insulator vessel or dome together with purifying, sterlizing,- and the an improved construction and arrangement of insulator base or support having an improved nozzle or jet opening adapted to cooperate with the improved electrode.
A still further object is the provision of an improved form and arrangement of electrodes spaced a suitable distance apart to provide a silent discharge gap above the nozzle or jet opening in co-operative relation to the latter.
A still further object is the provision of an improved electrode for ozonizers of an improved form and composition. The improved electrode is preferably of triangular shape in cross section to provide sharp in terchangeable arcing edges, the electrodes being arranged in downwardly converging relation to each other and spaced apart at their converged ends to form a discharge gap immediately above the nozzle or jet opening and diverging upwardly to create a diminishing discharge zone.
A still further object is the provision of an improved arrangement and mounting of the electrodes relative to the ox'ygen nozzle or jet opening, the latter beingmade a part of the insulator electrode support and the arrangement being such that'the converging ends of the electrodes are immediately above the jet opening thereby providing a constant arcing of the electric current upon the jet of oxygen or air so that all of it passes through the arc and is therefore converted into ozone.
- I have found by practical experience in the production of ozone by an electric are that the produced ozone will destroy some of that previously produced if permitted to come into contact with hot surfaces raising the temperature above a certain degree and hence I aim to control the after temperatures in the present apparatus as much below 212 Fahrenheit as possible, since 392 Fahrenheit decomposes ozone into its original-oxygen form it being found, however, that ozone once destroyed by heat can not again be restored. It is found also that the lower the temperature of the oxygen treated by anelectric arc, the greater the percentage of ozone produced.
'With the above mentioned and other objects in view, my invention consists in the novel construction, arrangement, and combination of parts hereinaftc: described, illustrated in one of its embod ments in the accompanying drawings and particularly pointed out in the appended claims.
Referring to the drawings, forming a part of this specification, Figure l is a central vertical sectional view of an ozonizer constructed in accordance with this invention.
Fig. 2, a view, partly in side elevation and partly in section, of the dome portion of the insulator vessel or ozone receiver turned a quarter turn from that shown in Fig. 1 to more clearly illustrate the relative arrangement of the ozone intercepting and cooling water circulating cross tubes.
Fig. 3, an enlarged rear edge view of one of the improved electrodes and holders, detached.
Fig. 4, a side elevation of the same.
Fig. 5, a plan view of one of the electrodes, detached.
Fig. 6, an enlarged top plan view of the insulator base, detached, and illustrating in particular the elongated nozzle or oxygen inlet jet opening.
Similar numerals of reference designate like parts throughout all the figures of the drawings.
The improved ozonizer comprises a suit-' able base or support 1, provided, in the present instance, with a plurality of upwardly extending equally spaced supporting posts or columns 1*, said posts 1 being adapted to removably support or carry a sub-base 1", the latter, in the present instance, being no of disc shape and provided with a central opening 1, and a'plurality of bolt receiw ing openings 1".
The improved insulator .vessel or ozone receiver 2, comprises a base portion provided with an annular base flange 2", and is provided at its top with a dome portion 2*. The vessel or receiver 2 is preferably formed of glass as shown, but may be formed of some other suitable insulating material and as a means of maintaining the ozone within the chamber 2, at a temperature as much below 212 Fahrenheit as possible and providing for a substantially uniform temperature of the vessel the latter is preferably provided with outer and inner walls 2 and 2 respectively, forming an annular water circulating space 2, the latter communicatingwith an inlet neck 2, provided with a conductor tube or hose 2 communicating with a suitable source of fresh water supply, the upper portion of the dome being provided .with an outlet neck or nipple 2, provided with a flexible pipe or hose 2, for the outlet of the heated water after it has passed through the water passage.
As a means of intercepting and cooling the ozone directly over and coming in contact with the hottest ozone above the electric discharge zone below between the electrodes, the inner wall 2 is provided with a plurality of cross water circulating pipes or tubes 2 As a means of providing for the outflow or conveyance of the ozone to the desired place of use or storage. the dome portion is provided with an outlet neck 2*, the latter, in the present instance, being provided with a flexible conduit pipe 2.
As a means of sealing the point of contact between the base flange'2 and the sub-base 1 the latter is provided on its top with a gasket 3. and as a means of clamping the base of the vessel to the base 1 a two-part flanged clamping ring 4, may be provided, said ring 4 being provided with suitable bolt receiving openings to receiving clamping bolts 5 threaded into suitable threaded openings in the posts or supports 1.
The insulator base 6 is provided with a suitable hub or neck portion having an interior opening terminating at its top in an upwardly tapered outlet or dome portion 6', the latter terminating in an elongated or slotted fresh air or oxygen jet opening 6".
As a means of delivering the fresh air or oxygen to the upwardly converging or dome portion 6 and jet opening 6 a vertically extending delivery tube 7 is threaded in the central threaded opening 1 of the sub-base and as a means of insulating and sealing the tube 7 with respect to" the insulator base 6 a rubber gasket 8, surrounds the tube 'i' and is interposed between the insulator and the base plate 1". The delivervtube 7 is connected to a suitable fresh air supply or oxygen pipe 9 leading to a suitable source of supply.
In the present instance, the insulator base is provided with arms having slots 6, the latter being adapted to removably and adjustably receive electrode supports 10, the latter, in the present instance, being in the specific form of upwardly extending sup-l porting stems or arms terminating at their tops in clamping heads 10 the lower ends of the arms or supports 10 being threaded and being connected and clamped by means of washers 11, and clamping nuts 12. The electrode supports 10 are provided with suitable conductors 13, suitably connected to suitable conductors 14:, arranged within suitable high potential insulators 15, the conducting portions 14 of the insulators 15 being connected to the conductors or terminals 16, leading to the transformer. The clamping heads 1O are provided with undercut sides conforming to the form of the inclined sides of the improved electrodes hereinafter referred to, said clamping heads-10 being provided with clamping screws 17 and nuts 17, as shown most clearly in Figs. 3 and 4 of the drawings.
Referring now to the improved electrodes 18 and improved manner in which the same are mounted and arranged relative to each other and with respect to the elongated jet opening 6". it will be seen that the electrodes are of substantially triangular shape in cross section thereby presenting relatively sharp edges 18, and relatively sharp terminal points 18", so that when the electrodes are arranged in downwardly converging relation as shown most clearly in Fig. 1 of the drawings the terminal points 18 will .be disposed immediately above the jet opening 6 and the oppositely arranged sharp edges 18 extending upwardly and in diverging relation will crcate a diminishing discharge zone upwardly from the jet opening and between the electrodes.
The electrodes 18 are preferably made of platinoid or tungsten and it will be understood that the electrodes may be readily reversed or interchanged to bring the sharp edges 18 into opposite relation to present a new discharge edge whenever desired, this interchangeable relation resulting in econ omv in the renewal of parts.
Having thus described one of the embodiments of my invention. without having attempted to set forth all the forms in which it may be made, or all the modes of its use, what I claim and desire to secure by Letters Patent, is',-
1. An ozon -zer electrode having relatively sharp edges resulting inhigh concentration of electrical discharge at such edges.
2. In an ozonizer. an electrode of triangular shape in every line of cross section.
3. in an oznnizer, converging electrodes of substantially uniform triangular shape in cross section.
4. An ozonizer electrode having relatively sharp interchangeable side discharge edges providing relatively high current density at such edges.
5. In an ozonizer, an insulated water jacketed vessel of vitreous material forming an ozone receiving chamber.
6. In an ozonizer, a water jacketed vitreous vessel including an outlet dome forming an ozone receiving chamber.
7. In an ozonizer, a pair of electrodes arranged in downwardly cenverging vertical relation terminating in a silent discharge gap. 1
8. In an ozonizer, an insulated water jacketed vessel forming an ozone receiving chamber and provided with ozone intercepting and cooling water circulating tubes.
9. In an ozonizer, a pair of angular shaped electrodes arranged in converging relation and terminating in pointed portions forming a discharge gap.
10; In an ozonizer, triangular shaped electrodes spaced apart in downwardly converged relation forming a relatively flat upwardly diminishing discharge zone.
11. In an ozonizer, a pair of angular shaped electrodes arranged in converged relation and spaced apart forming a silent discharge gap providing an upwardly diminishing discharge zone.
12. In an ozonizer, an insulator vessel forming an ozone receiving chamber and provided with an ozone outlet dome and subjacent' water circulating cross tubes adapted to intercept and cool the ozone as formed and passed to said outlet dome.
13. In an ozonizer, an insulated support provided with an oxygen inlet jet opening, electrode supports carried by said insulated support, and electrodes arranged in downwardly converging relation and terminating in a discharge gap above said inlet jet opening. a
14. In an ozonizer, the combination with an insulator base having an oxygen inlet jet opening, of a. pair of converging electrodes having their converged ends spaced apart forming a. discharge gap above said oxygen inlet jet opening to convert the oxygen into ozone. 1
15. In an ozonizer, the combination with an insulator support provided with an elongated oxygen inlet opening; of electrodes of angular shape having relatively sharp edges arranged in downwardly converging rela-- tion above and longitudinally of said elongated oxygen inlet opening.
16. In an ozonizer, the combination with an insulator electrode support provided with an oxygen inlet dome shaped portion terminating in a slotopening, of electrodes arranged in downwardly converging relation above and longitudinally of said slot opening.
17. In an ozonizer, the combination with an insulator base having an elongated oxygen inlet Opening; of a pair of upwardly diverging electrodes spaced apart forming an upwardly diminishing discharge zone above and in a plane with said elongated inlet opening to convert the oxygen into ozone.
18. In an ozonizer, an insulator electrode support provided with a tapered oxygen inlet portion' terminating in a jet opening, electrode supports on said insulator electrode support, and electrodes arranged in downwardly converging relation provided with relatively sharp edges forming a diverging discharge gap of relatively high current density.
'19. In an ozonizer, an insulator vessel provided with an oxygen inlet nozzle and spaced inwardly tapered electrodes for converting. the oxygen into ozone, said vessel having spaced walls forming a water circulating insulating passage and being provided with ozone cooling cross water circulating tubes above said electrodes.
20. In an ozonizer, a support, an insulator base on said support provided with a jet opening, electrodes carried by said insulator support and spaced apart to provide a discharge gap above said jet opening, and a water jacketed insulator vessel forming an ozone receiving chamber above said electrodes and provided with an ozone conducting outlet.
21. In an ozonizer, a support, an insulator base on said support provided with a jet opening, electrodes having upwardly diverging sharp edges spaced apart providing a silent discharge gap above said jet opening, and a water jacketed insulator vessel forming an ozone receiving chamber above said electrodes and provided with an ozone conducting outlet.
22. An ozonizer, comprising a supporting base, an insulating vessel forming a chamber and provided with a dome having an ozone outlet, an insulator electrode support provided with an elongated oxygen jet opening, converging electrodes forming a gas gap above said elongated oxygen jet opening,
and means for passing an electric current between said electrodes.
23. In an ozonizer, an insulator support, an insulator base provided with a jet opening, means for conducting oxygen to said jet opening, electrodes carried by said insulator base and spaced apart providing a discharge gap above said jet opening, a water jacketed receiver extending above and surrounding said nozzle and electrodes.
24. In an ozonizer, a dome shaped insulator vessel provided with an oxygen inlet,
nozzle and spaced electrodes having downwardly converging edges forming a discharge gap for converting the oxygen into ozone, said vessel having inner and outer spaced walls forminga Water circulating passage and having cross Water circulating tubes above said electrodes to intercept and cool the ozone arising from the latter.
25. In an ozonizer, an insulator support, an insulator base provided with a jet ope-ning, means for conducting oxygen to said jet opening, electrodes carried by said insulator base and spaced. apart providing a discharge gap above said jet opening, a water jacketed insulator vessel mounted above said base and forming an ozone receiving chamber above said nozzle and about said electrodes, and means for conveying ozone from said chamber.
26. An ozonizer, comprising a supporting base, an insulator vessel forming a chamber and provided with spaced water circulating Walls including an ozone outlet dome, an 'insulator electrode support provided with a slotted jet opening, electrodes provided with a discharge gap above said jet opening, means for passing an electric current between said electrodes, and means for conveying water to and from said water circulating Walls.
In testimony whereof I hereby affix my signature. I
'MENDAL \V. WILLSON.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3734846A (en) * 1969-11-20 1973-05-22 Airco Inc Process for producing ozone using a fluidized bed dielectric

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3734846A (en) * 1969-11-20 1973-05-22 Airco Inc Process for producing ozone using a fluidized bed dielectric

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