Abstract: The present invention is a system for the comminution of passivating layers on particles to facilitate particle digestion. A vessel comprises a lower portion and an upper portion. The lower portion has an inner surface with an increasing cross sectional area in the upward direction. The upper portion is in fluid communication with the lower portion. The upper portion has an inner surface with a substantially constant cross sectional area. A focused ultrasonic source is positioned so as to sonicate material in the lower portion. At least one fluid inlet is so arranged and constructed relative to the lower portion to introduce fluid into a lower section of the lower portion in a manner so as to cause helical, upward circulation of any particles in the lower portion. A flow re-direction mechanism is positioned in the upper portion so as to stop the helical, upward circulation of the particles and to convert the circulation to an upward, substantially non-circular flow.

Abstract: A pneumatic pulverizer includes an accelerating tube for conveying and accelerating a material to be pulverlized by a high-pressure gas and a pulverizing chamber for finely pulverizing the material to be pulverized. The pulverizing chamber is provided with a colliding member having a colliding surface provided in opposed relation to an outlet of the accelerating tube. The colliding surface of the colliding member has a protruding central portion, and an outer peripheral colliding surface provided around the protruding central portion for secondarily pulverizing the material primarily pulverized by the protruding central portion. The pulverizing chamber has a side wall for performing tertiary pulverization on the material secondarily pulverized by the outer peripheral colliding surface.

Abstract: A supersonic jet crusher of a collisional type has an injecting nozzle for injecting a jet stream into a crushing chamber; a jet stream path for supplying a crushing material into the jet stream; a collisional plate disposed in a position opposite to the injecting nozzle; a detachable jig disposed in said crushing chamber; and a secondary collisional plate detachably arranged in the detachable jig such that the crushing material collides with the collisional plate and further collides with the secondary collisional plate. Another supersonic jet crusher of a collisional type has an injecting nozzle for injecting a jet stream into a crushing chamber; a supplying port for supplying a crushing material into the jet stream; and a collisional member opposed to the injecting nozzle and having a crushing face on which the crushing material directly collides against to finely crush the crushing material.

Abstract: A pneumatic pulverizer comprises an acceleration pipe for transporting powders under acceleration by a high pressure gas, a pulverization chamber, a collision member for pulverizing the powders ejected from the acceleration pipe by a force of collision, the collision member being provided against the outlet of the acceleration pipe, a raw material powder supply inlet provided on the acceleration pipe, and a secondary air inlet provided between the raw material powder supply inlet and the outlet of the acceleration pipe.

Abstract: A micromilling device includes a milling chamber, at least one nozzle for injecting a stream of solid particles to be milled into the chamber in a predetermined path, and impact elements positioned in the path for impacting the stream of solid particles.

Abstract: The apparatus and its process utilization enables a higher throughput of ore bodies being comminuted, provides a closer or more accurate selection of size of particles or particulates produced, has a low noise level in its operation, and uses its rotor impeller to facilitate the charging-in of ore bodies to be processed, the breaking-up of such bodies, and the delivery of such bodies in the form of sized particles or particulates is introduced by suction peripherally into one of the compartments of a motor-drive impeller and axially into all of the compartments, ore bodies are introduced into all of the compartments and are thrown under centrifugal force from one of the compartments against an anvil. Broken-up bodies of a desired size are fluidized and moved upwardly out of the apparatus while those of a rejected size are returned to the impeller for reprocessing with additional ore bodies being newly introduced therein.

Abstract: A fluidized bed jet mill has a grinding chamber with a peripheral wall, a base, and a central axis. An impact target is mounted within the grinding chamber and centered on the chamber's central axis. Multiple sources of high velocity gas are mounted in the peripheral wall of the grinding chamber, are arrayed symmetrically about the central axis, and are oriented to direct high velocity gas along an axis intersecting the center of the impact target. In another embodiment, a fluidized bed jet mill has a grinding chamber with a peripheral wall, a base, and a central axis. Multiple sources of high velocity gas are mounted in the peripheral wall of the grinding chamber, are arrayed symmetrically about the central axis, and are oriented to direct high velocity gas along an axis intersecting the central axis of the grinding chamber.

Abstract: A pulverizer capable of effectively eliminating the production of a back pressure during the pulverization of a material on the pulverization surface of a collision member, to thereby accomplish the pulverization with a high efficiency. A collision member arranged in a pulverization chamber opposite to an injection nozzle is formed with a pulverization surface including a central conical surface section formed so as to project from the collision member in the direction opposite to the direction of injection of a jet and have a conical angle of no less than 30 degrees and an annular surface section formed contiguous to the central conical surface section to surround it and perpendicular to the direction of the jet.

Abstract: A pneumatic pulverizer comprises an accelerating pipe for conveying and accelerating powder by a high pressure gas, a pulverizing chamber and an impinging member which pulverizes the powder jetted out from the accelerating pipe through impinging force. The impinging member is provided in the pulverizing chamber as opposed to the accelerating pipe outlet and the impinging member has an impinging surface with a tip portion having a conical shape with an apex angle of 110.degree. to 175.degree.. In this way, powder is pulverized at the impinging surface of the impinging member and dispersed substantially in the entire circumferential direction after impinging and the powder dispersed may impinge secondarily on the wall of the pulverizing chamber.

Abstract: A process and an apparatus for mechanically removing a sulphur containing layer from lumped lime, wherein the lumped lime is accelerated from a bottom member by a mechanical impulse and projected from the bottom member against a processing surface having profiles provided over partial sections thereof to remove the sulphur containing layer, when the lumped lime returns to the bottom member and the process is repeated along a conveying path for the lumped lime for a determined length of time, or for as long as it takes to achieve the desired removal of the sulphur containing layer.

Abstract: A process and apparatus for the low temperature comminution of tires includes the separation of the tires into tire portions including tread portions, sidewall portions and bead portions. The tire portions are cooled and crushed to form rubber granules and scrap material. The rubber granules are sorted from the scrap material in a process that includes the step of suspending the granules in a moving stream of low temperature gas. The stream of gas and rubber granules is impacted on a solid surface to grind the granules. The low temperature gas is preferably recycled and cooled by heat exchange with another circulating low temperature gas such as nitrogen.

Abstract: A mill for comminution and separation of lump ore and subsequent recovery of relatively dense components of the ore, said mill including a stationary housing defining an ore reduction chamber therewithin, an impactor rotor drum rotatably mounted within said housing, said rotor drum supporting a plurality of circumferentially spaced ore breaker hammers and fixedly supporting a plurality of vanes for directing a high velocity air stream around said ore reduction chamber and defining a central feed region therewithin for receiving said lump ore, a plurality of transverse ore breaker plates fixedly supported within said housing and radially spaced from said rotor drum, an autogenous region in downstream communication with said ore reduction chamber, said autogenous region including a high velocity venturi region, a low velocity expansion region downstream of said venturi region and at least one collector plate arranged such that in use a particle laden air stream is directed through said venturi region and out in

Abstract: A forage harvester (10) with a pick-up device (12) for the material to be chopped, and, connected to a chopping and/or conveying equipment, a delivery tube (16) with a delivery opening (18), possesses a re-comminuting device (32), comprising more than one group (42a-42c) of profiles (34) with gaps (38) positioned in the impact area of the material accelerated or to be accelerated by the chopping and/or conveying equipment in such a way that the gaps (38) of each group (42a-42c) issue at the end of each group (42a-42c) lying approximately in the direction of delivery, and the profiles of the following group (42b-42c) are offset so that the outlets of the gaps (38) each face a profile (34) of the following group (42b-42c).

Abstract: The invention relates to an improved mill that achieves excellent milling with a reduced consumption of milling gas. The mill incorporates an impact plate in-line with a first jet and venturi and a second jet and venturi to entrain the milled particles from the plate to feed into a separation/milling chamber.

Abstract: An apparatus for separating fibers from a fiber aggregate comprises a hollow cylindrical apparatus housing defining therein a dissolving chamber. A partition is disposed in the internal space of the apparatus housing and forms the bottom of the dissolving chamber. The partition defines a plurality of through openings, through which fibers separated from the aggregate passes. The apparatus housing has an aggregate inlet to introduce the aggregate to be dissolved with pressurized air. The pressurized air carrying the aggregates is discharged toward the partition and forms swirl flow in the dissolving chamber. By the swirl flow of the air, the aggregate flows to collide onto the partition with an impact. This impact serves as an energy for causing dispersion or dissolving of the aggregate. The partition is preferably formed with elastically or resiliently deformable material for absorbing impact upon the collision of the aggregate thereonto so as not to cause destroying of each individual fiber.

Abstract: A substantially spherical vessel (10) the lower part (16) of which opens into a cylindrical wall (36) of a dish (24) arranged below the vessel (10) is provided for mixing, drying, granulating, pelleting, varnishing, and/or coating pulverous or granular material (30). An immersion tube (40) protrudes from above into the vessel (10), being immersed in the dish (24) such that a narrow annular space (42) is defined in the dish. The annular space (42) has a mean diameter (D42) which conforms to the mean diameter of the maximum free ring cross section in the equatorial plane of the vessel (10). In the upper area of the vessel (10) a diverting shield (44) is arranged rotationally symmetrically around the immersion tube (40). The diverting shield (44) vaults symmetrically over the annular space (42). Any gas introduced from above into the dish (24) is deflected in upward direction, flowing through the annular space (42) into the vessel (10) where the material (30) is fluidized in two concentric toroidal vortices.

Abstract: A gun-target apparatus and method for producing silicon seed particles from silicon feed particles comprising accelerating silicon feed particles from a container and propelling them into a silicon target in a target chamber. The target is movable within said chamber so that a different portion of the silicon target is exposed to the oncoming seeds. The seeds are accumulated in a receiver and separated from silicon dust and larger feed particles.

Abstract: A nozzle with a stand-off plate is incorporated in a hydrocyclone to break-down and remove contaminants existing within a liquid medium, said plate sloping towards the nozzle and abutting upon a cylinder forming the hydrocyclone.

Abstract: A nozzle with a stand-off plate is incorporated in a filter to remove and break-down contaminants existing within a liquid medium, said filter being represented by a collar with a plurality of minor openings or by a spring.

Abstract: A method of improving the working properties of fluid systems, e.g., hydraulic, lubrication, fuel, etc. The method lies in hydromechanical destroying or cavitation eroding the solid contaminants of the fluid, directly in the system or separately; dispersing of them into and retaining them within the fluid; releasing the gaseous and liquid contaminants, driving them off; and the emulsification of the fluid. As a side action, feeding of the pump of the fluid system is improved as well.

Abstract: A process and apparatus are disclosed for treatment of crystalline, particulate phthalocyanine pigments, and particularly for green shade phthalocyanine blue pigments. To effect development of the pigment tinctorial strength by reduction of the pigment particle size, the pigment particles are repeatedly impacted against relatively fixed impact plates by entrainment in moving air streams. Repeated impacting of the particulate pigment provides significant reduction in its particle size and significant development of the tinctorial strength of the pigment. It is presently preferred that the impacting steps be carried out in conjunction with subsequent viscous grinding of the partially developed pigment. This combination of treatment steps has been found to provide a resultant product of significantly enhanced tinctorial strength, while at the same time affording significant savings in materials, process time, and energy usage.

Abstract: Apparatus for comminuting materials to extremely fine size includes a circulating stream jet mill and a discrete but functionally interconnected and interdependent rotating anvil-jet impact mill. New material is injected into the impact mill against a rotor, and the partly comminuted material is transferred to the jet mill with vortex feed into the jet mill. Uncomminuted material in the jet mill is reinjected into the impact mill. The two mills transfer the material back and forth until the particles are comminuted, classified, and removed from the jet mill. The anvil-jet mill is provided with stationary anvils and support for turning the rotor at increased velocity.

Abstract: A circulation classifying chamber having a coarse particle discharge duct connected to a peripheral position thereof and a fine particle discharge duct connected thereto about an axis of circulation, is provided with a baffle member, a nozzle and, as necessary, a rectifier. Particulate materials jetting out of the nozzle on high velocity gas flows violently collide with the baffle member to be crushed and given components of velocity in a direction of flow in the circulation classifying chamber. Thus, crushing and classification proceed in parallel.

Abstract: Microfibrillated celluloses having properties distinguishable from all previously known celluloses, are produced by passing a liquid suspension of cellulose through a small diameter orifice in which the suspension is subjected to a pressure drop of at least 3000 psig and a high velocity shearing action followed by a high velocity decelerating impact, and repeating the passage of said suspension through the orifice until the cellulose suspension becomes a substantially stable suspension. The process converts the cellulose into microfibrillated cellulose without substantial chemical change of the cellulose starting material.

Abstract: An apparatus for reclaiming no-bake foundry sand is provided, in which a fluidized stream of pneumatically conveyed particles of no-bake coated sand grains traveling at velocity sufficient for transport is discharged against a target to fracture the no-bake rigid coatings from the sand grains on impact. Certain of the fractured coatings are removed and the sand grains along with any remaining fractured coating particles are directed through a passageway having a fluidizing air stream induced therein. The air stream entrains and carries off the fractured coatings and the fine sand grains so that only sand grains of desired particle size pass through the air stream for subsequent reuse. Advantageously, the velocity of the air stream is controlled by regulating the cross-sectional area of the passageway at the point at which the air stream is induced.

Abstract: This invention is a device for fracturing particles. It is designed especially for use in "hot cells" designed for the handling of radioactive materials. In a typical application, the device is used to fracture a hard silicon-carbide coating present on carbon-matrix microspheres containing nuclear-fuel material, such as uranium or thorium compounds. To promote remote control and facilitate maintenance, the particle breaker is pneumatically operated and contains no moving parts. It includes means for serially entraining the entrained particles on an anvil housed in a leak-tight chamber. The flow rate of the gas is at a value effecting fracture of the particles; preferably, it is at a value fracturing them into product particulates of fluidizable size. The chamber is provided with an outlet passage whose cross-sectional area decreases in the direction away from the chamber.

Abstract: A machine lubrication system including a lubricant pressure line communicated with a lubricant reservoir by means of a nozzle provided with a hydrodynamic means to break-down solid contaminants of lubricant to a non-interferring size.

Abstract: An apparatus for reclaiming no-bake foundry sand is provided, in which a fluidized stream of pneumatically conveyed particles of no-bake coated sand grains traveling at velocity sufficient for transport is discharged against a target to fracture the no-bake rigid coatings from the sand grains on impact. Certain of the fractured coatings are removed and the sand grains along with any remaining fractured coating particles are directed through a passageway having a fluidizing air stream induced therein. The air stream entrains and carries off the fractured coatings and the fine sand grains so that only sand grains of desired particle size pass through the air stream for subsequent reuse. Advantageously, the velocity of the air stream is controlled by regulating the cross-sectional area of the passageway at the point at which the air stream is induced.

Abstract: Fluid material having solids entrained therein is injected under high pressure through a nozzle disposed tangentially of a cylindrical housing. Groups of impactors are spaced circumferentially about the housing interior and include multiple rows with adjacent rows being staggered. The solid material strikes the impactors thereby reducing the size of the material. The fluid carries the solids circularly around the housing with the solids gaining speed between groups of impactors. The housing has an axially positioned discharge chute which is vertically disposed and adjustable in height. The mixture circulates through the housing in a vortex pattern, and exits through the axial discharge. The heavier solids are urged radially outward under centrifugal force and constantly strike the impactors until their size is reduced sufficiently to allow them to follow the mixture through the axial discharge.

Abstract: A process and apparatus for micronizing solid carbonaceous material and preparing carbon oil mixtures. Micronization is accomplished by projecting particles of a carbonaceous material into the point where a number of fluid streams intersect and by then impacting the particles against a rotating cone. The resulting micronized particles are then separated from the fluid in which they are entrained and are mixed with fuel oil. A preferred fluid for use in this process is a gaseous mixture consisting of about fifty percent steam and fifty percent flue gas.

Abstract: An impact scrubber for removing coating materials from the surfaces of particulate matter such as foundry sand and the like comprises a lift tube open adjacent upper and lower ends for containing a high velocity fluidized stream of said particulate matter. A fluid injector is mounted adjacent the lower end of the lift tube for moving the particulate matter into the lift tube to form an upwardly flowing, high velocity turbulent fluidized stream. An adjustable inlet valve is provided adjacent the fluid injector for regulating the flow of sand into the high velocity stream of fluid moving into the lift tube. A target is spaced above the open upper end of the lift tube providing an impact area for receiving the flow of high velocity fluidized particulate matter which impacts against the target. The coating material is loosened from the sand grains by the impact at the target and during the turbulent flow.

Abstract: Unclean fuel, such as coal is reduced to particle size passing 200 mesh in an attrition mill. Pyrite and ash removal is performed in conjunction with the attrition milling. The resulting fine particles are combusted in the turbine exhaust gas and the products of combustion indirectly heat the turbine operating gas. Control is provided by bypass around the heat exchanger and/or auxiliary clean fuel combustion.

Abstract: In a timbering operation wherein the felled trees are fed into a chipper for conversion to chips at the timbering site the chips are fed into a trailer-mounted rotary cylindrical screen which separates the chips from dirt and fine bark particles. Preferably the chips entering the cylindrical screen are blown into engagement with an impact plate to aid in disloading particles of dirt and bark from the chips. The chipper may be mounted on the same trailer or may be a separate trailer-mounted unit.

Abstract: Disclosed is apparatus for separating and comminuting solid particles suspended in a fluid stream. Pumpable slurries containing solid bodies suspended in a liquid are separated into two streams with the larger bodies concentrated in one stream. The stream containing the larger bodies is passed through a mill which accelerates the stream and directs the accelerated stream against a stationery wall. The high speed bodies are fractured by impact with the wall and returned to a mixing vat to be mixed with the remainder of the slurry.

Abstract: An impact target for a fluid energy mill comprises a plurality of impact plates arranged in series in spaced relationship alone and generally perpendicular to the axis of a discharge conduit. All but one of the plates has an open area in the central portion thereof and an impact area surrounding the open area. The size of the open area diminishes with the distance of the plate from the discharge conduit.

Abstract: A method and apparatus for selectively comminuting particles of a frangible material for the production of filter aid, the apparatus including an air-conveying system for carrying entrained particles of varying masses, a venturi for accelerating the air stream and entrained particles, a duct for receiving the accelerated air stream and particles, and impact bars mounted in the duct for selectively fragmenting the entrained particles. The impact bars are positioned in the accelerated air stream to establish adverse pressure fields which classify the entrained particles and which provide impact surfaces to fragment particles greater than a predetermined mass, the rest of the particles being deflected around the bars by the action of the adverse pressure fields.

Abstract: A method and apparatus for scrubbing particles of sand used in foundry molding is disclosed. The device utilizes a rotating impellor surrounded by a stationary control cage having at least one upwardly positioned opening therein to project sand against a target. The sand rebounds from the target and is continually intercepted and impacted by subsequent grains of sand hurled by the impellor through the control cage opening. The device produces a scrubbing action on the particles by the repeated and continual contact with each to reduce binder buildup from the molding process. A first stage scrubbing of the particles is obtained by causing the particles to be compacted between the rotating impellor and the control cage prior to their being thrown against the target. The sand particles may be recycled through the device any number of times in order to increase the scrubbing effect and further reduce binder buildup.

Abstract: A system for size reduction and separation of plastic-metal assemblies for the purpose of reclaiming the plastic and/or metal for reuse. The system includes a granulator followed by a fiber/dust separator with these components preferably being repeated, followed by a screening separator, and finally a hightension separator for separating plastic and metal. The system particularly incorporates an impact-counterflow separator for removing fiber/dust from heavier plastic and metallic particles.