A heat treatment apparatus includes a furnace body in which a material is transferred and heat treated, a sagger disposed inside the furnace body and configured to receive and transport the material, a roller configured to transport the sagger, and a heater disposed at a position apart from the sagger. The sagger seated on the roller includes a plurality of saggers. The heater includes an upper heater disposed above the sagger and a lower heater disposed under the sagger, based on a third direction which is a height direction of the furnace body, and the lower heater is disposed closer to the roller than to a bottom surface of the furnace body.

A heat treatment apparatus includes a furnace body in which a material is transferred and heat treated, a sagger disposed inside the furnace body and configured to receive and transport the material, a roller configured to transport the sagger, and a heater disposed at a position apart from the sagger. The sagger seated on the roller includes a plurality of saggers. The heater includes an upper heater disposed above the sagger and a lower heater disposed under the sagger, based on a third direction which is a height direction of the furnace body, and the lower heater is disposed closer to the roller than to a bottom surface of the furnace body.

A conveyor may include: a first conveyor roller device; a second conveyor roller device disposed downstream of the first conveyor roller device; and a stopper disposed downstream of the first conveyor roller device and upstream of the second conveyor roller device and configured to prohibit a movement of the objects in the conveyance direction. The first conveyor roller device may be configured to increase the interval between the objects in the conveyance direction to be wider than the interval between the objects in the conveyance direction when the objects exit from the heat treatment furnace so that the objects are separated into object groups each including the predetermined number of objects or less. The stopper may be configured to be disposed between the object groups separated by the first conveyor roller device and adjacent to each other in the conveyance direction.

A conveyor may include: a first conveyor roller device; a second conveyor roller device disposed downstream of the first conveyor roller device; and a stopper disposed downstream of the first conveyor roller device and upstream of the second conveyor roller device and configured to prohibit a movement of the objects in the conveyance direction. The first conveyor roller device may be configured to increase the interval between the objects in the conveyance direction to be wider than the interval between the objects in the conveyance direction when the objects exit from the heat treatment furnace so that the objects are separated into object groups each including the predetermined number of objects or less. The stopper may be configured to be disposed between the object groups separated by the first conveyor roller device and adjacent to each other in the conveyance direction.

A method of thermal processing a work piece using another work piece which includes providing a chamber having a plurality of temperature zones, disposing a first work piece within a first temperature zone of the chamber, allowing a temperature of the first work piece to thermally equilibrate with the first temperature zone, moving the first work piece to a second temperature zone and disposing a second work piece within the second temperature zone of the chamber, in fluid communication with the first work piece, wherein a thermal exchange occurs between the first and second work pieces.

A method of thermal processing a work piece using another work piece which includes providing a chamber having a plurality of temperature zones, disposing a first work piece within a first temperature zone of the chamber, allowing a temperature of the first work piece to thermally equilibrate with the first temperature zone, moving the first work piece to a second temperature zone and disposing a second work piece within the second temperature zone of the chamber, in fluid communication with the first work piece, wherein a thermal exchange occurs between the first and second work pieces.

A plant for recovering metals and/or metal oxides from industrial process waste, in particular oil product refining waste, comprises a furnace; a feed line connected to a main inlet of the furnace and configured to feed the furnace with a solid waste containing metals, in particular in oxide form; an outlet line, connected to a solid phase outlet of the furnace and configured to draw a metal-enriched solid phase out of the furnace; the furnace is a belt conveyor furnace having a belt conveyor closed in a loop with a substantially horizontal configuration and having a top face, which receives the waste to treat and conveys it between two longitudinal opposite ends of the belt conveyor furnace respectively provided with the main inlet and the solid phase outlet.

A plant for recovering metals and/or metal oxides from industrial process waste, in particular oil product refining waste, comprises a furnace; a feed line connected to a main inlet of the furnace and configured to feed the furnace with a solid waste containing metals, in particular in oxide form; an outlet line, connected to a solid phase outlet of the furnace and configured to draw a metal-enriched solid phase out of the furnace; the furnace is a belt conveyor furnace having a belt conveyor closed in a loop with a substantially horizontal configuration and having a top face, which receives the waste to treat and conveys it between two longitudinal opposite ends of the belt conveyor furnace respectively provided with the main inlet and the solid phase outlet.

A method and device for producing a crude copper. The method comprises: mixing and reacting copper smelting molten slag (1), a carbon-containing reductant (2) and an inert gas (3) under pressure, the pressure of the inert gas (3) being 100 kPa to 800 kPa. The device comprises: a furnace body (4) and gas nozzles (411) disposed on the furnace body (4), the gas nozzles (411) being located on the sidewall of the furnace body (4) and connected to the center of the molten pool.

A rotary kiln includes: a heating tube; a material feeding unit disposed on a first end of the heating tube; a material collection unit disposed on a second end of the heating tube; an inner cylinder supported at the second end of the heating tube with the inner cylinder being inserted in a central portion of the heating tube; a plurality of branch tubes disposed circumferentially on an outer circumferential surface of the inner cylinder, each of the branch tubes branching from the inner cylinder and extending in an axial direction along an inner circumferential surface of the heating tube; a hot air supply tube supported to be relatively rotatable with respect to the inner cylinder with the hot air supply tube being inserted in one end of the inner cylinder that extends outside the heating tube; and a drive mechanism that rotates the heating tube.