Abstract: The present invention generally relates to apparatuses and methods for use in metal melting, refining and/or other processing, such as, for example, steel making in an electric arc furnace (EAF), and more particularly, to improved cooling systems and related methods for use in an extended burner panel.

Abstract: An apparatus for positioning a tool relative to a workpiece, including a first carrier rotatable on a first axis and a second carrier carried by the first carrier and rotatable about a second axis defined by the first carrier. The second axis is in a parallel and offset eccentric relationship to the first axis. A tool holder is secured to the second carrier in an offset eccentric relationship to the second axis, and a drive mechanism selectively rotatably drives the first carrier about the first axis and the second carrier about the second axis to selectively position the tool holder. A tool secured in the tool holder may be moved along a selected path relative to a workpiece.

Abstract: The present invention provides a cooling apparatus having sufficient cooling ability in the cooling process of a continuous annealing facility and capable of minimizing the strip temperature difference in the width direction caused by the high speed blowing of the gas and preventing the strip from fluttering by making the most of the holding rolls, wherein the continuous annealing facility a plurality of nozzles for blowing gas protruding from a surface of a cooling chamber installed in the continuous annealing facility so as to keep the tips of the nozzles 50 to 100 mm distant from the surface of the steel strip and the cooling chamber is disposed so that the maximum width of the steel strip (Wmax:mm) and the distance (H:mm) from the surface of the cooling chamber to the steel strip satisfy the expression (1) below: 6<Wmax/H<13??(1)

Abstract: A gas injection lance and an apparatus employing the lance for producing ferrous metal are provided. The lance has an elongated flow duct made of inner and outer concentric carbon steel tubes, a cooling water supply and return, and exterior surface which is designed to hold a frozen layer of slag on the duct, a gas inlet at a rear end of the duct, a tip joining the concentric tubes at the forward end of the duct, a non-metallic or refractory lining for the duct, and swirl-imparting member or members located in the duct for imparting swirl in the gas flow through the forward end of the duct.

Abstract: A lower surface cooling box 12 is arranged between transfer rolls 11 on a runout table 3 and an upper cooling box 14 moving freely is arranged at a position corresponding to the cooling box 12 to eject cooling water to the steel strip symmetrically in the vertical direction. The steel strip passes the center of converge of cooling water from upper and lower surfaces of the steel strip. A water breaking roll 16 is provided elevating freely at least at the outlet side rotating at the same peripheral speed as the transfer rolls and is rotated to lower concurrently with passing of the steel strip top at the cooling apparatus. The upper cooling box is also lowered concurrently to cool the steel strip.

Abstract: A method for quenching metallic workpieces in a furnace space, includes subjecting a metallic workpiece to a heat treatment process in an evacuated furnace space. Before a quenching gas or mixture is passed into the furnace space, hydrogen is supplied to the still evacuated furnace space. The amount of hydrogen supplied to the furnace space is limited so that, depending on (1) the quenching pressure, (2) the gas temperature at the end of the quenching process, and (3) the composition of the quenching gas or mixture, a hydrogen concentration below the explosive limit is reached in the quenching gas or mixture. The quenching gas or mixture contains an inert gas or a mixture of inert gases, such as nitrogen, argon and/or helium.

Abstract: An injection lance (26) for injecting hot gas into a vessel includes an elongate gas flow duct (31) which receives hot gas from a gas inlet structure (32) and an elongate central tubular structure (33) which extends within gas flow duct (31) from its rear end to its forward end. Adjacent the forward end of duct (31), central structure (33) carries a series of flow directing vanes (34) for imparting swirl to the hot gas flow exiting the duct. The wall of duct (31) downstream from gas inlet (32) is internally water cooled by flow of water through annular passages (43,44). The cooling water also flows through the interior of a duct tip (36) at the forward end of duct (31). The front end of central structure (33) which carries the swirl vanes (34) is internally water cooled by cooling water supplied forwardly through a central water flow passage (52) from a water inlet (53) at the rear of the lance through to a nose (35) of the central structure.

Abstract: A method and apparatus for quenching an elongated metal workpiece, such as a pipe, bar, tube, or the like, involves, moving the elongated metal workpiece to be quenched longitudinally through at least one rotating spray unit having a plurality of outlets disposed in a substantially even arrangement over an inner surface thereof through which sprays of quenching fluid are directed at the metal workpiece.

Abstract: The present invention is: a cooling apparatus, capable of extending the service life of a blast furnace by suppressing the molten-iron-induced erosion of a carbon brick in the sidewall of a blast furnace bottom by preventing the cooling ability for the carbon brick from deteriorating, structured to bond a metal cooler to the carbon brick with an adhesive containing carbon powder, a synthetic resin and a hardening agent, and form a bonding layer containing 50 mass % or more, preferably 50 to 85 mass %, of solid carbon between the cooler and the carbon brick; and a cooling apparatus according to the above further structured to embed anchor bolts at an end in the carbon brick, have the other end of the anchor bolts pierce the cooler, and fasten the cooler to the carbon brick with the anchor bolts by tightening lock nuts with washers having a spring function provided between the nuts and the cooler.

Abstract: Apparatus for cooling billets (9), preferably formed of aluminum. The apparatus includes a housing (2) provided with openings (3) for axial passage of the billet through the housing, a cooling ring (4) arranged inside of the housing, and supply lines (6) for supplying a cooling medium to the housing. The cooling medium is supplied to the billet (9) in order to achieve uniform cooling, i.e. cooling without a temperature gradient, around the entire circumference of the billet. The apparatus is capable of rotating the billet while the cooling medium is supplied uniformly around the circumference of the billet (90).

Abstract: The invention relates to a method for cooling a lance provided for converting a medium into a molten mass and/or for measuring the properties of the molten mass. A gas/liquid mixture is fed as a cooling medium into a cooling circuit which is closed up to the lance end (2) situated on the melting side. The invention provides that the gas/liquid mixture or the components thereof is/are fed and permitted to expand under pressure up to the area of the lance end (2) situated on the melting side. The invention also relates to a lance which has a mixing chamber (5, 6) connected to the cooling circuit The mixing chamber has the connections (3, 7) for a gas and liquid supply which is designed to produce the gas/liquid mixture, whereby the mixing chamber (5, 6) is connected via a pressure line (10) to at least one two-component nozzle (11) arranged in the area of the lance end (2) which is situated on the melting side.

Abstract: The invention concerns a method for cooling a shaft furnace loading device, said loading device being equipped with a ring-shaped rotary joint (40), provided with a fixed ring-shaped part (56) and a rotating ring-shaped part (46), for supplying cooling liquid to a rotating cooling circuit (36, 38). The invention is characterized in that it consists in feeding the joint (40) fixed part (56) with cooling liquid such that a leakage flow passes in a separating ring-shaped slot (58, 60) between the fixed part (56) and the rotating part (46) of the joint (40), to form therein a liquid joint. Said leakage flow is then collected and drained without passing through the cooling circuit (36, 38).

Abstract: To effectively separate and recover solid dust and volatile or molten components while preventing solid dust and volatile or molten component dust from being adhered to inner walls of a temperature control tower.

Abstract: In a temperature control device comprising a temperature control tower for controlling a blown high-temperature exhaust gas to a proper temperature and discharging the temperature-controlled exhaust gas to the subsequent step side, the temperature control tower comprises a cooling water spray means for spraying cooling water to about the center of the gas flow of the high-temperature exhaust gas and a cooling gas injecting means for injecting cooling gas along the inner wall of the temperature control tower.

Abstract: Methods and apparatus for efficient utilization of a cryogen in inerting of solid and molten metals are presented. One method and apparatus of the invention includes providing a source of liquid cryogen; transporting the liquid cryogen through a conduit connected to the source of liquid cryogen to a gas/liquid separator, wherein a portion of the liquid cryogen transforms into gaseous cryogen en route; transporting a portion of the liquid cryogen through a first conduit connecting the gas/liquid separator to a cryogen supply nozzle; transporting the gaseous cryogen through a second conduit connecting the gas/liquid separator to a cryogen supply nozzle; and flowing at least a portion of liquid cryogen and at least a portion of the gaseous cryogen through the cryogen nozzle separately and near a surface of solid or molten metal. Thus liquid that transforms into gaseous cryogen en route from storage is not vented and not wasted, but used in inerting of solid or molten metals.

Abstract: A method for quenching metallic workpieces in a furnace space, includes subjecting a metallic workpiece to a heat treatment process in an evacuated furnace space. Before a quenching gas or mixture is passed into the furnace space, hydrogen is supplied to the still evacuated furnace space. The amount of hydrogen supplied to the furnace space is limited so that, depending on (1) the quenching pressure, (2) the gas temperature at the end of the quenching process, and (3) the composition of the quenching gas or mixture, a hydrogen concentration below the explosive limit is reached in the quenching gas or mixture. The quenching gas or mixture contains an inert gas or a mixture of inert gases, such as nitrogen, argon and/or helium.

Abstract: Apparatus for injecting gas into a vessel comprises a lance 26 having a gas flow duct 31 extending longitudinally from a rear end to a forward end (36) from which to discharge gas from the duct. An elongate body 38 disposed within the forward end of the duct is fitted with flow directing vanes 39 to impart swirl to the discharging gas. The tip 44 is internally cooled by water supplied and returned through supply and return passages 52, 56. Cooling water is also passed through internal cooling passages 66, 75, 76, 87 within vanes 39 and central body 38 via water supply and return passage 60 within the duct.

Abstract: A device for exchanging heat with a flat product moving in front of the device that includes a device for placing at least one plenum chamber under gaseous pressure, the plenum chamber having on a front face several blades forming a duct for the ejection of the gas towards a surface of the flat product, the blades being superimposed upon one another in the direction of movement of the flat product and constituting an outlet orifice for the gas extending in the direction of the width of the flat product. The plenum chamber has a width in the direction of the width of the flat product sufficient to allow the evacuation of the gas on both sides of the plenum chamber.

Abstract: Nozzle for device to inject oxygen and technological gases used in metallurgical processing of metal melting, the nozzle being suitable to emit a gassy flow at supersonic velocity, the nozzle having a conformation symmetrical to a central axis (x) defined by a throat arranged between the inlet and the outlet, the throat defining an upstream part with a convergent development and a downstream part with a divergent development which ends in the outlet mouth, the nozzle with the convergent/divergent development having a geometry such that the fall in pressure of the gassy flow from inlet to outlet has a hyperbolic tangent development. Dimensioning method for the nozzle as above, the method providing an inverse dimensioning approach wherein the geometry of the nozzle is adapted to the natural profile of the fall in pressure of the gassy flow according to a hyperbolic tangent development, thus obtaining an optimum variation of the aerodynamic parameters according to the natural laws of expansion.

Abstract: Rapid-cooling oven, forming part of a plant comprising various treatment stations, especially stations for the heat treatment of products in strip form, through which a metal strip runs continuously, the rapid cooling being obtained by spraying onto the strip a jet of an atmosphere gas consisting of a nitrogen/hydrogen mixture having a hydrogen content which is greater than 15%, and preferably close to 50%, the atmosphere gas being recirculated using a circuit of recirculation ducts comprising compensators made in the form of a series of corrugations allowing all the ducts to expand, at least one fan and at least one gas/water exchanger, wherein a safety device is provided to prevent this ingress of air into the circuit for recirculating the cooling gas or any leak of the latter into the environment, in the event of a break in a corrugation of a compensator or in the case of a leak form the latter, said safety device being made in the form of a flexible membrane impermeable to the cooling gas, the said membra

Abstract: Runner for conveying a hot melt, for example molten pig iron and slag, comprising a wear lining in which the melt flows during normal operation, a safety lining which surrounds the wear lining and a metal encasing which surrounds the safety lining, wherein the safety lining is made essentially of a refractory concrete, and the metal encasing and the safety lining are joined to one another by anchoring means, and wherein a means for keeping the encasing at a higher temperature where it would otherwise have a relatively cool spot is situated locally on the outwardly facing side of the encasing.

Abstract: A tap hole drilling machine, a drill bit for use in it, and a drilling method are disclosed. A nitrogen gas supply line for pressurised nitrogen as a carrier gas and a cooling water supply line are provided to form water mist for cooling the drill bit, the drill rod, the main body of the drilling machine and the tap hole. Thus the drilling time period is markedly shortened, the molten iron discharge time period is significantly increased, and the net consumption rate of the refractory material is considerably decreased. Therefore, by properly adjusting the amount of the molten iron existing within the lower portion of the blast furnace, the condition of the blast furnace can be stabilized, and the productivity can be improved. Advantageous conditions can be provided for the operation even under a high pressure and a high temperature environment.

Abstract: An air quenching system for cooling heated parts under controlled conditions having cooling air ejection nozzles located in opposed relation on opposite sides of the heated part and air exhaust orifices adjacent the air supply nozzles for quickly removing the cooling air after engagement with the heated part. The cooling air, and exhausting thereof, may be controlled in various zones spaced along the length of the air quenching system for controlling air flow and the rate of cooling.

Abstract: The present invention is to provide a cooling system for cooling a strip in a vertical path of a continuous strip heat-treating process in which cooling nozzles are arranged in a width direction of a strip on the surfaces of cooling headers arranged closely opposed to both surfaces of the strip, and each cooling nozzle is inclined to both edge portions in the width direction of the strip by an inclination angle in such a manner that a center line of a jet of a cooling medium, which is jetted out from the cooling nozzle, is inclined with respect to a normal line at a position on the strip surface where the center line of the jet of the cooling medium crosses the strip.

Abstract: In the particular embodiment described in the specification, a cold hearth arrangement has a hearth plate forming a floor above the bottom of a melt chamber enclosure and a hearth is removably mounted on the hearth plate. Coolant supply and return lines are connected through the hearth support plate to the bottom of the hearth so that no utility lines are exposed above the floor plate. A mold, which also has water supply and return lines connected to it beneath the floor plate extends through the bottom of the enclosure.

Abstract: A plate cooler is provided for metallurgical furnaces lined with a refractory lining, comprising cast copper or a low-alloy copper alloy with coolant ducts arranged in its interior. The coolant ducts are prefabricated, comprising copper pipe sockets, copper pipelines and copper pipe bends which are cast integrally in the plate cooler. The wall of the plate cooler facing the interior of the furnace has webs and grooves or a flat surface.

Abstract: A device for cooling a rolled product such as a steel strip moving in front of the device includes a box filled with a pressurized gas. The box comprises a plurality of fins forming pipes, each fin including at least one gas outlet orifice directed towards at least one surface of the rolled product. The orifices of each fin are aligned in the transverse direction of the rolled product. Each space between two adjacent fins has a depth in a direction perpendicular to the surface of the rolled product and a width in the longitudinal direction of the rolled product sufficient to enable evacuation of the gas without disrupting the exit of the gas from the adjacent fins.

Abstract: A cooled elongated, preferably threaded and, tapered, metallurgical taphole plug and a method for using it are described. The plug is inserted into a taphole to cause a plug of molten material to freeze in the taphole such that molten material flow within the taphole is stopped. In one embodiment, the plug is comprised of an externally threaded, elongated member having a first end and a second end with a taper extending at least partially therebetween. The first, narrower end, which is inserted into the taphole, is cooled by a fluid flowing through an internal passage extending at least partially between the first and second ends. As the first end is cooled, the molten material adjacent the first end freezes around the tip of the first end, effectively plugging the taphole. The device is removed by discontinuing fluid flow and applying a rotational moment about the second end such that the threaded, tapered device backsout of the taphole.

Abstract: In a method for quenching metal parts, a quenching chamber is provided in which the quenching oil is continuously supplied from below the steel parts and circulated upward through the parts in a laminar flow. The circulation is accomplished by feeding the quenching oil onto the bottom of the quenching chamber of an auxiliary chamber surrounding it.

Abstract: This invention concerns a method for water-cooling directly a vertical train of graphite electrodes connected to each other, by using a cooling water sprayed directly onto the outer periphery surface of at least one graphite electrode consisting of an upper portion of graphite electrode train, in which the cooling water is directed at the upward or downward inclination with respect to the horizontal level and said cooling liquid is sprayed simultaneously at a flow rate ranging between 0.8 liters/minute and 40 liters/minute.

Abstract: In tapping method in which molten iron (16) and molten slag (18) are discharged from a blast furnace, a conducting pipe (30) is connected to the external side of a molten iron taphole (12), and an electromagnetic energy supply body (32) is disposed around the outer periphery of the conducting pipe (30), whereby a turning motion or a magnetic pressure due to an electromagnetic repulsive force to the molten iron flowing in the conducting pipe (30) for separating the molten iron (16) from the molten slag (18) thus controlling the discharge rates thereof. With this tapping method, it becomes possible to keep substantially constant the discharged amounts of molten iron and molten slag from the blast furnace during a period from the starting to the completion of the tapping and significantly reduce the number of drilling/blocking upon tapping, and hence to stabilize quality of products and save the tapping work.

Abstract: A device for coupling a metallurgical carriage to a flexible conduit comprises a first half-coupling mounted on the metallurgical carriage and a second half-coupling connected to one end of the flexible conduit. A coupling station is located near a predefined coupling position for the metallurgical carriage. This coupling station comprises a supporting block designed to receive and support the second half-coupling, driving means to move the supporting block from a parked position in the direction of the first half-coupling and vice versa. The second half-coupling is equipped with a locking device which can be actuated by a control device on the coupling station. In a first position of the locking device, the second half-coupling is coupled and locked to the first half-coupling; and in a second position of the locking device, the second half-coupling is coupled and locked to its support on the coupling station.

Abstract: To increase the service life of a tuyere arrangement for the introduction of agents into a molten bath, comprising an apertured block (3) refractory material which can be fitted into the wall (1) of a vessel (12) and which includes a cylindrical body (4) with an inserted tuyere tube (6,7), the cylindrical (4) is axially displaceably fitted in the apertured block (3) the tuyere tip which is consumed is replaced by a follow-up movement of the cylindrical body (4).

Abstract: A quench chute for use in heat treating objects extends from one end of a furnace into a tank filled with quenching fluid. The chute has a passage therein through which heat treated objects fall from the furnace into the tank. Laminar sheets of quenching fluid are introduced into the chute above the quenching fluid level in the tank and a portion of the chute is constructed from a screen which allows quenching fluid to exit the chute and return to the quench tank. A portion of the chute below the quenching fluid level is curved and has a plurality of fluid manifolds disposed therealong for introducing high pressure jets of fluid into the chute. As the objects fall from the furnace into the chute, they first pass through the laminar sheets of quenching fluid. The objects then fall through the quenching fluid and glance off of the curved portion of the chute. The objects are decelerated by the glancing contact with the chute and by the jets of quenching fluid introduced into the chute by the manifold.

Abstract: A lance for submerged injection of a feed composition, such as a waste, into a molten metal bath includes a perforate refractory tube which extends substantially coaxially about an injection tube. The perforate refractory tube shields the injection tube from the molten metal bath during partial submersion of the lance into the molten metal bath. A perforate support liner extends between the injection tube and the perforate refractory tube and supports the perforate refractory tube. The perforate support liner and the injection tube define an annulus. The method includes conducting a coolant from a coolant source through the annulus to perforations defined by the perforate support liner and the perforate refractory tube, whereby coolant can be directed through the perforations and into the molten metal bath to cause a protective coating of metal to form on the lance.

Abstract: A cooling member for positioning in the refractory wall of a cupola at a location spaced from a tap-hole has a heat-conductive member, such as a copper plate, in contact with a fluid-conducting member, such as a copper conduit. The cooling member is bent to form an L-shaped member, so that a pair of such members defines a channel at the tap-hole location. Refractory is provided on each side of the L-shaped member and forms the tap-hole on the interior within the channel thus formed. Alternative shapes for the cooling member are disclosed.

Abstract: To prevent burn-back at a coal dust injection lance which projects into a hot blast conduit of a blast furnace, cooling is effected using atomized coolant. Water is preferred as the coolant. The carrier gas used for the atomized water is either air or the oxygen which is injected through the lance for complete combustion of the coal dust.

Abstract: A metallurgical lance incorporates an indirect cooling system, separate from and independent of the reactants which are fed through a center passageway (12) to a melt, bath or the like. An outer passageway (10) extends around the center passageway (12) and its outer wall (14) is exposed to heat flux. A coolant flows through the outer passageway (10). Auxiliary means (22) are positioned within the outer passageway (10) to enhance the take-up of heat from the outer wall (14). The coolant is a two-phase mixture, preferably gas and water. The auxiliary means may be a helical fin (22) or a wire packing within the coolant flow path. Enhanced cooling is achieved by (a) the extended metal surface area provided by the auxiliary means, and/or (b) surface evaporation of a film of liquid deposited on the auxiliary means and/or on the inside of the outer wall (14).

Abstract: A channel structure, i.e. iron trough or iron runner, for flow of molten pig iron during tapping of a blast furnace, comprises a wear lining which provides the surface along which the iron flows, a permanent lining outside the wear lining and an outer lining of high thermal conductivity outside the permanent lining. The outer lining has a bottom wall and two opposed side walls thermally connected at their lower ends to the bottom wall. To improve resistance to thermal stress, outside and adjoining at least one, but not all, of the walls of the outer lining, there is at least one refractory insulating lining layer, and the other or others of the walls of the outer lining are thermally coupled to heat dissipating means.

Abstract: In an in-line refining vessel (50) having submerged porous plugs (20) for bubbling oxygen through the molten metal, a shroud device (52) to circulate nitrogen around the porous plug (20) and oxygen supply pipe (25).

Abstract: Workpieces which are formed by the build-up of weld metal are treated and cooled by directing a fluid such as water in a large stream so that rapid and intensive cooling of the surfaces of the workpiece is achieved by creating a laminar water flow. A water quantity is directed to reach the workpiece surface in a laminar flow and it is permitted to flow over the workpiece as the water is sucked off before it reaches its boiling point at the rate of flow to the workpiece and away from the workpiece being sufficient to prevent the formation of steam. The water which is employed is advantageously recooled to its initial temperature by the withdrawing effect created by an air fan.

Abstract: Molten slag is poured onto the upper surface of an elongated conveyor member. The surface of the conveyor member is cooled while maintaining it free from contact with liquids. Preferably, this is accomplished by way of a water cooled pan connected to the lower surface of the member. Reciprocal lengthwise motion is imparted to the conveyor member to transport the slag over the cooled surface until the slag is solidified and broken into pieces.

Abstract: A runner for conveying molten pig iron and slag from a blast furnace of a steel manufacturing facility, is of wholly metallic construction and is hollowly formed to provide a cooling jacket through which water is circulated. Each runner so formed is an individual section in a string of other, similarly formed runners each of which has its own inlet connected to a source of water under pressure, and its own outlet to a suitable drain or reservoir where water temperature may be measured and observed. Water entering each section through the inlet courses through a tube that extends within the jacket substantially from one end to the other end, adjacent the slag channel of the runner, then extends transversely of the channel to the other side of the runner, thereafter extending longitudinally of said other side. The water flows out of the tube, within the jacket, after having extended along both sides of the channel in heat exchange relation to the slag flowing through the channel.

Abstract: In bottom blown oxygen steel making or in top and bottom blown combined oxygen steel making, a tip end of a tuyer immersed in molten steel is seriously damaged or melted away due to very high temperatures due to the vigorous combustion of carbon, manganese and so on by the oxygen blown into a furnace.In order to prevent such damage, hydrocarbon gas has been blown through space between an outer pipe and an inner pipe of a dual pipe tuyere or tuyeres, but such hydrocarbon gas rather excessively lowers the temperature of the molten metal adjacent to the tip end of the tuyere and often blocks the opening of the tuyere.Now, instead of blowing in hydrocarbon gas, particulate material such as limestone magnesite, dolomite and the mixture thereof are proposed to be blown into the molten metal in the decarburization steel making vessel carried by an innert gas, combustion gas, blast furnace gas, LD process gas and oxygen or a mixture of these gases.

Abstract: A blast furnace having a cooling device between its hearth bottom and its foundation. The cooling device includes top and bottom groups of cooling fluid passages with a heat-insulating layer disposed therebetween, the top and bottom groups having independently regulable cooling capacities. Also provided is a method for operating a blast furnace including the steps of measuring a temperature in the hearth bottom, and controlling the cooling of the hearth bottom so that the specification point of the molten product in the hearth bottom maintains a predetermined level.

Abstract: Coils of metal strip are cooled by being placed on porous supports with the coil axes vertical. Water is introduced into the coil interiors and most of the water overflows the coil tops and thereby cools the coil tops and peripheries. A small proportion of the water flows out through the porous supports and thereby cools the bottom ends of the coils. The water is preferably introduced from below. Apparatus for performing cooling is disclosed.

Abstract: A process and apparatus for absorbing heat from the cooling of metal slabs and other metal products following rolling, casting, or other heating to shape the metal products, and the converting of the heat to a useful form of energy. During the process of cooling the metal products, heat from the metal is transferred to an absorbing medium by means of radiant and convective or conductive heat transfer. The absorbing medium may be water which is converted to steam. The apparatus includes necessary piping, circulating fan, steam drum, pumps and heat insulation.

Abstract: In a method for cooling tuyeres when molten iron is refined by blowing a refining gas containing oxygen, and by setting tuyeres below or above the meniscus of iron bath in a vessel for refining the molten iron, wherein concentric tuyeres are used and a refining gas containing oxygen gas is blown through the inner pipe of the concentric tuyere and a fluid for protecting the tuyeres is blown through the outer pipe of the tuyere so that the protecting fluid surrounds the refining gas in a sheath form to cool the top ends of the tuyeres, the protecting fluid being a mixture of gaseous or liquid carbon dioxide and carbon fine particles.

Abstract: A method and apparatus for making steel in a basic oxygen furnace installation, in which water is sprayed from a central location within and at the open end of an exhaust hood 12 outwardly toward the inside hood surface to cool the hood and wet the off-gases during a blow. A ring-like spray manifold 22 is supported on an oxygen lance 14 for automatic insertion to the proper location in the hood, for removal with the lance, and for automatic operation concurrently with the supplying of oxygen.

Abstract: A method of and system for removing silicon from a high temperature liquid sodium coolant system for a nuclear reactor. The sodium is cooled to a temperature below the silicon saturation temperature and retained at such reduced temperature while inducing high turbulence into the sodium flow for promoting precipitation of silicon compounds and ultimate separation of silicon compound particles from the liquid sodium.