A plasma heater includes a plasma heating section, an exhaust wasteheat heating section, a gas circulation pump, a water cooling system, and a treatment tank for waste gas and waste water. Flames emitted by plasma torches of plasma generators are directly sprayed onto first water pipes for heating. Exhaust generated after combustion of the plasma torches flows through the tail gas residual heat heating section in the metal cylindrical casing, then flows out of the metal cylindrical casing to enter the gas circulation pump, and flows back into the plasma generators through the gas circulation pump for recycling. After the circulating exhaust operates for more than 10 minutes, the discharged waste gas and waste liquid enter the recovering treatment tank.

Disclosed is a demountable tube for a plasma torch assembly, such as an ICP torch assembly. The tube includes an open tubular body for radially surrounding a plasma within the tubular body. The tubular body may comprise a wall; and a mounting feature projecting from the tubular body for at least one of: (i) controlling alignment of the tubular body with respect to a mounting portion of the torch assembly, and (ii) releasably securing the tubular body to a portion of the torch assembly. The tubular body may also have a transmission zone that is partially devoid of said wall and includes at least one hole through said wall. The tube may be opaque. A plasma torch and ICP spectroscopy system are also disclosed.

Plasmatron includes an anode having a cylindrical proximal portion and a cylindrical distal portion, the distal portion having a smaller diameter than the proximal portion; a connecting portion connecting the proximal and distal portions and having walls oriented at 40-60 degrees to a center axis of the anode; a cathode having a generally cylindrical shape in its proximal portion and a tapering at a 30-45 degree angle to the center axis of the anode in its distal portion, with a cylindrical rod on its tip. Gap between the connecting portion of the anode and the distal portion of the cathode is double the gap between the proximal portion of the anode and the proximal portion of the cathode. High voltage power supply provides an operating voltage of 800-2500 volts and a current of 0.3-0.7 A. Length of the rod is approximately 1.5 times its diameter.

Embodiments of the present invention include a plasma cutting torch and plasma cutting torch components, such as electrodes, cathodes, retainer caps, etc. having a unique physical features, including threads relationships. Embodiments include torch components having modified square thread with a specialized thread configuration including a particular relationship between thread crest and root, and included angles of thread sidewalls.

There is provided a reactor wherein the reactor is a cyclone reactor, and wherein at least one volume (Vh) inside the reactor is adapted to be heated by a plasma torch to a temperature of at least 3000? C. Advantages include that the calcination is quicker with a more uniform heat transfer to all particles. The calciner can be made more compact. The temperature difference in the process ?T increases, which also improves the efficiency of the process. The calcination process can be made essentially kinetically controlled. The elevated temperatures of the heat treated material reduce recombination reactions.

A plasma torch assembly for use in a chemical reactor comprises an input system and at least one plasma torch. The plasma torch has a torch chamber with an open end for gas outflow, a first electrode disposed in the torch chamber, and a second electrode disposed in the torch chamber between the cathode and the open end. The input system has a plurality of gas feedstock inputs. Each of the plurality of gas feedstock inputs is associated with one or more specified input gases and is associated with one or more gas input positions in the torch chamber.

A torch stinger apparatus may comprise one or more sets of plasma generating electrodes and at least one hydrocarbon injector contained within the electrodes. The electrodes may be concentric. The at least one hydrocarbon injector may be cooled. A method of making carbon particles using the apparatus is also described.

A torch stinger apparatus may comprise one or more sets of plasma generating electrodes and at least one hydrocarbon injector contained within the electrodes. The electrodes may be concentric. The at least one hydrocarbon injector may be cooled. A method of making carbon particles using the apparatus is also described.

A plasma spraying device includes a torch head which has a plasma channel that extends between a cathode and an anode. The plasma channel is bounded by a plurality of neutrodes which are electrically insulated from each other. A gap extends between the frontmost neutrode and the anode, which gap is divided into at least two sections. There is a radial distance and an axial distance between the two sections. An insulating disk is arranged in each of the two sections.

A plasma torch having an open end from which a plume of plasma or plasma effluent, for use in therapeutic treatment of tissue in vivo, preferably skin and/or wounds, is emitted in use. The plasma torch comprising: a cathode rod; and a grounded conductive tube having at least one opening and being arranged around the cathode and spaced therefrom to form a cavity in which, in use, an arc discharge between the cathode and grounded conductor ionizes a feed gas to produce a thermal plasma, the plasma or effluent being emitted in a plume from the opening of the grounded conductor. The opening of the grounded conductor tube comprises a lip, the inwardly facing surface of which defining an orifice, the orifice having a length to an opening width ratio of at least 2.5:1.