Liquid film stabilized induction plasma torch
First Claim
1. An induction plasma torch comprising:
- a tubular torch body having an inner surface and an inner diameter;
a plasma confinement tube in which plasma is produced, said plasma confinement tube being made of a material permeable to a cooling liquid, and having a first end, a second end, an inner surface and an outer diameter, wherein said outer diameter is smaller than said inner diameter and the confinement tube is mounted within the tubular torch body to form an annular chamber between the inner surface of the tubular torch body and the outer surface of the confinement tube;
a gas distributor head mounted on the torch body at said first end of the plasma confinement tube for supplying at least one gaseous substance into said confinement tube, wherein said at least one gaseous substance comprises a plasma-sustaining central gas and a plasma-sustaining sheath gas, and wherein said gas distributor head comprises (a) means for producing a central flow of said plasma-sustaining central gas in the plasma confinement tube from said first end to said second end thereof and (b) means for producing a flow of said plasma-sustaining sheath gas on the inner surface of the plasma confinement tube from said first end to said second end thereof;
means for establishing a flow of said cooling liquid through the annular chamber from one end of the confinement tube to the other end thereof for cooling said confinement tube in which plasma is produced, cooling liquid from said annular chamber permeating said material of the confinement tube to form a film of said cooling liquid on the inner surface of said confinement tube and cooling liquid from said film being vaporized by heat produced by the plasma, said cooling liquid being selected to form, when vaporized, gas capable of producing plasma; and
an induction coil wound around said annular chamber and supplied with an electric current for inductively applying energy to (a) said at least one gaseous substance flowing through the plasma confinement tube and including said plasma-sustaining central gas and said plasma-sustaining sheath gas, and (b) the cooling liquid vaporized into said confinement tube in order to produce and sustain said plasma in the confinement tube;
wherein said annular chamber has a geometrical axis, and a thickness profile along said geometrical axis which changes the pressure of said cooling liquid along said axis in view of increasing permeation of said cooling liquid through the confinement tube and therefore the thickness of said liquid film at locations of the inner surface of the confinement tube where heat produced by the plasma is higher.
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Accused Products
Abstract
A liquid film stabilized induction plasma torch comprises a cylindrical torch body made of cast ceramic or polymer-matrix composite, a coaxial cylindrical plasma confinement tube mounted inside the torch body, a gas distributor head secured to one end of the torch body to supply the confinement tube with gaseous substances, a cylindrical and coaxial induction coil embedded in the ceramic or polymer-matrix composite of the torch body, and a thin annular chamber separating the coaxial torch body and confinement tube. A high velocity cooling liquid flows through the thin annular chamber. The confinement tube is made of porous ceramic material through which cooling liquid from the annular chamber permeates. The permeating cooling liquid forms on the inner surface of the confinement tube a thin liquid film subjected to the high temperature of the plasma produced in the confinement tube. Cooling liquid from the film is vaporized and the resulting vapor forms the main body of the plasma gas required to operate the plasma torch. The permeable wall induction plasma torch arrangement can be used to generate a plasma of water vapor (steam) and of a wide range of vaporizable liquids. This can also be achieved by means of a hybrid combination of direct current and radio frequency induction plasma torches.
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Citations
7 Claims
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1. An induction plasma torch comprising:
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a tubular torch body having an inner surface and an inner diameter; a plasma confinement tube in which plasma is produced, said plasma confinement tube being made of a material permeable to a cooling liquid, and having a first end, a second end, an inner surface and an outer diameter, wherein said outer diameter is smaller than said inner diameter and the confinement tube is mounted within the tubular torch body to form an annular chamber between the inner surface of the tubular torch body and the outer surface of the confinement tube; a gas distributor head mounted on the torch body at said first end of the plasma confinement tube for supplying at least one gaseous substance into said confinement tube, wherein said at least one gaseous substance comprises a plasma-sustaining central gas and a plasma-sustaining sheath gas, and wherein said gas distributor head comprises (a) means for producing a central flow of said plasma-sustaining central gas in the plasma confinement tube from said first end to said second end thereof and (b) means for producing a flow of said plasma-sustaining sheath gas on the inner surface of the plasma confinement tube from said first end to said second end thereof; means for establishing a flow of said cooling liquid through the annular chamber from one end of the confinement tube to the other end thereof for cooling said confinement tube in which plasma is produced, cooling liquid from said annular chamber permeating said material of the confinement tube to form a film of said cooling liquid on the inner surface of said confinement tube and cooling liquid from said film being vaporized by heat produced by the plasma, said cooling liquid being selected to form, when vaporized, gas capable of producing plasma; and an induction coil wound around said annular chamber and supplied with an electric current for inductively applying energy to (a) said at least one gaseous substance flowing through the plasma confinement tube and including said plasma-sustaining central gas and said plasma-sustaining sheath gas, and (b) the cooling liquid vaporized into said confinement tube in order to produce and sustain said plasma in the confinement tube; wherein said annular chamber has a geometrical axis, and a thickness profile along said geometrical axis which changes the pressure of said cooling liquid along said axis in view of increasing permeation of said cooling liquid through the confinement tube and therefore the thickness of said liquid film at locations of the inner surface of the confinement tube where heat produced by the plasma is higher. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification