Abstract: The invention relates to a mechanical device with no moving parts that homogeneously mixes two or more liquids or liquids and gases. It is possible with the device to totally saturate liquids with gas droplets of less than one micron. The device comprises an inlet for partially mixed components leading to a plurality of passageways converging axially into a chamber which has radial openings into another chamber defined by a conical member converging in the axial direction and having an opening at its apex to exit the mixed components, the components exiting the radial openings collide with the walls of the conical member producing shear and turbulence and subsequently spinning within the conical member and are then subjected to increased pressure in the axial direction by the converging wall of the conical member.

Abstract: An apparatus and method for preparing and dispensing a liquid deicer. The apparatus and method allow deicer ingredients or precursors to be combined in an exothermic reaction to produce a heated deicer at the location where it will be used. In one implementation, potassium hydroxide and acetic acid are combined using the apparatus and method to make hot potassium acetate for use in numerous deicer applications, including deicing of airport runways.

Abstract: The invention provides a mixer capable of mixing two kinds of liquids with each other while varying a mixing ratio in a wide range of the flow rates thereof by causing the two liquids in trace amounts to come into contact with each other, or a mixer capable of mixing in short time. The mixer comprises a mixing chamber very low in profile for effecting mixing reaction, and micro-nozzles, provided at a high density in the upper face and lower face thereof, respectively. The mixer is a mixer wherein micro-nozzles are provided in the inner walls of a mixing chamber, respectively, so as to oppose each other, and two liquids are spurted from the micro-nozzles, respectively, thereby implementing mixing by taking advantage of a diffusion phenomenon. Since the two liquids in trace amounts are ejected from the micro-nozzles, respectively, in such a way as to oppose each other, the two liquids in trace amounts come into contact with each other, thereby enabling diffusion mixing in short time.

Abstract: In a process for mixing reactant streams (1, 2; 5) to produce a product stream (10) using a mixing configuration (15, 16) having a number of reactant feed points, an excess component stream of one reactant is divided into two reactant substreams (1, 2) and fed into the suction region (3, 4) of a mixing space (12) at right angles to a deficient component (5) entering the mixing space (12).

Abstract: The invention relates to an apparatus for the production of a two-component coating mixture, in particular for the production of a an aqueous two-component polyurethane coating emulsion from an aqueous binder dispersion comprising isocyanate-reactive hydrogen atoms and a polyisocyanate, with a mixer for the production of the two-component coating mixture by mixing a first coating component and a second coating component and with a homogeniser for homogenisation of the two-component coating mixture, the homogeniser being downstream from the mixer. It is proposed that, in the outlet zone of the homogeniser, a return line branches off, which opens into the inlet zone of the homogeniser, in order to recirculate a portion of the two-component coating mixture homogenised by the homogeniser for rehomogenisation. The invention furthermore comprises a corresponding process and a substrate which is coated with a coating produced in corresponding manner.

Abstract: A invention chemicals in the form of gases, into a fluid stream. The mixing system withdraws a side stream of fluid from a main fluid stream. The side stream is pressurized and directed through a convergent nozzle, producing a high-velocity jet. This jet is directed onto a deflector plate located on the center line of the conduit that carries the main fluid stream and is thereby diverted in the radial directions normal to the flow direction of the main fluid stream. The deflector is provided with an gas diffudion port for injecting the chemicals that are to be mixed into the main stream. The even distribution of the injected chemicals is ensured by the hydrodynamic forces generated by the flow of the high-velocity jet over the deflector.

Abstract: A uniform small particle homogenizer for liquid product comprising a pair of intensifier cylinder pumps (20) driven by a hydraulic system (22). The pumps have a power stroke side and a suction stroke side, and a pair of proximity sensors (24) that interface with each pump to detect forward and rearward movement. A microprocessor (26) with timing capabilities controls the sequential operation of each pump with the power stroke of each pump timed to alternately produce a flow of the liquid product with a precisely timed flow overlap period from the alternating pumps. Since the power stroke takes a longer time than the suction stroke, the instant each power stroke is started the opposite pump is timed to hesitate and slightly overlap until a constant product flow-rate is produced from the alternating pumps, which eliminates large variances in pressure and therefore achieves uniformity in product particle size.

Abstract: A method and apparatus for treating fluids includes a vortex nozzle assembly having improved vortex nozzles. The overall system and system layout, which includes an elbow design, are improved as well as vortex system methods. The vortex nozzle assembly includes an access port and methods for measuring physical properties at the fluid flows. A frame assembly provides support for the vortex system.

Abstract: Methods and apparatuses for processing product components. The methods include directing a first jet of fluid along a first path and directing a second jet of fluid along a second path to cause interaction between the jets that forms a stream oriented essentially opposite to one of the jet paths.

Abstract: System and apparatus to accelerate solution of gas into liquid. The system includes an aspirating injector to bring the gas into the pressurized system, a collider, a reactor, and an optional gas/liquid separator. The collider and reactor provide for prompt renewal of the interface in the bubble with the liquid as the consequence of abrupt changes of direction of flow.

Abstract: Rapidly and intimately mixing a plurality of fluid substances. A nozzle assembly having a first nozzle comprising a flow duct with a convergent, tapered nozzle tip; one or more additional nozzles comprising a flow duct with a convergent, tapered nozzle tip wherein each subsequent nozzle is disposed coaxially around the preceding nozzle; and a centerbody disposed coaxially in the interior of the first nozzle, protruding beyond the discharge opening of the first nozzle around which an annular jet of liquid flowing in the annular space between the first nozzle and the centerbody is dispersed.

Abstract: Opposing high-velocity (primary) streams of fluid are introduced into a passage through primary-fluid nozzles situated at opposite ends of said passage.

Abstract: In a method and apparatus for treating fluids, a pump delivers a fluid flow from a fluid source to a manifold. The manifold divides the fluid flow into first and second fluid flows, which are delivered from the manifold to a housing. The housing includes therein a first vortex nozzle positioned in opposed relationship to a second vortex nozzle. The first fluid flow enters the first vortex nozzle to create a first rotating fluid flow, and the second fluid flow enters the second vortex nozzle to create a second rotating fluid flow. The first and second vortex nozzles impinge the first and second rotating fluid flows in a collision chamber, thereby treating the fluid.

Abstract: The present invention is an apparatus and method designed to allow the reaction of two or more liquids through collision as separate jets within a mixing chamber with a small residence time to produce a sub-micron solid particle dispersion. The liquid jet impingement is achieved by pumping each liquid separately at a high flow rate though an orifice, that produces a high-velocity stream that collides with the opposing jet of another stream and dispenses the final sub-micron solid particle dispersion without restriction immediately upon mixing into a bulk stabilizer solution.

Abstract: Method for the in situ formulation of a medicinal substance solution for parenteral administration, in which at least two metered part-streams are continuously combined with the aid of a mixer to an active ingredient-containing total volumetric flow, characterized in that the resulting medicinal substance solution is not in thermodynamic equilibrium, and in that the resulting total volumetric flow after mixing is 0.2 ml/h to 500 ml/h, preferably 5 ml/h to 500 ml/h, an apparatus for carrying out the method, and an active ingredient administration kit which contains the apparatus.

Abstract: A combined mixing and injecting device includes a housing having a pressure chamber and containing two plungers with one being sleeved around the other. The plungers have top ends formed with pistons which respectively extend into upper and lower chambers of the pressure chamber to be operated by a fluid, and bottom ends with tapering end faces extending into a bottom space below the lower chamber to perform a camming action. A mixer disposed below the housing includes a mixing chamber and valve units having valve stems respectively controlled by actuating elements which in turn are managed by the camming action of the plungers. The valve stems are connected to slide seats slidable along radial directions and spaced apart around the housing. The actuating elements actuate the slide seats so that the valve stems are operated to open or close inlet holes communicated with the mixing chamber.

Abstract: Methods and apparatuses for processing product components. The methods include directing a first jet of fluid along a first path and directing a second jet of fluid along a second path to cause interaction between the jets that forms a stream oriented essentially opposite to one of the jet paths.

Abstract: A valve assembly for a molding system includes a plurality of sequentially activated valves. The valves suppress the initial surge of each individual fluid material component such that a proper quantity of each component is supplied to the mix head at the beginning of each cycle. Each of the valves includes a respective opening. The feed assembly continues to force fluid material against a first valve until the pressure is above a predetermine value. Once the pressure is above the predetermined value, the controller releases the pressure from an actuator associated with the first valve such that the valve opens. Fluid material can now flow through the valve assembly at a rate suppressed by the first valve. As the feed assembly continues to build toward it operational pressure, each remaining partially closed valve is opened in sequence. The restriction of one valve is thereby replaced by a lesser restriction. By opening the valves at a predetermined pressures the pressure buildup can be readily controlled.

Abstract: A invention mixes chemicals in the form of gases, into a fluid stream. The mixing system withdraws a side stream of fluid from a main fluid stream. The side stream is pressurized and directed through a convergent nozzle, producing a high-velocity jet. This jet is directed onto a deflector plate located on the center line of the conduit that carries the main fluid stream and is thereby diverted in the radial directions normal to the flow direction of the main fluid stream. The deflector is provided with a gas diffusion port for injecting the chemicals that are to be mixed into the main stream. The even distribution of the injected chemicals is ensured by the hydrodynamic forces generated by the flow of the high-velocity jet over the deflector. The invention is a continuation in part of application Ser. No. 09/399,390.

Abstract: Methods and apparatuses for processing product components. The methods include directing a first jet of fluid along a first path and directing a second jet of fluid along a second path to cause interaction between the jets that forms a stream oriented essentially opposite to one of the jet paths.

Abstract: A hydraulic jet flash mixer injects chemicals in the form of liquids, or slurries, or gases, into a fluid stream. The mixing system withdraws a side stream of fluid from a main fluid stream. The side stream is pressurized and directed through a convergent nozzle, producing a high-velocity jet. This jet is directed onto a deflector plate located on the center line of the conduit that carries the main fluid stream and is thereby diverted in the radial directions normal to the flow direction of the main fluid stream. The deflector is provided with an open port for injecting the chemicals that are to be mixed into the main stream. The even distribution of the injected chemicals is ensured by the hydrodynamic forces generated by the flow of the high-velocity jet over the deflector.

Abstract: A method of producing a fine particle dispersion characterized by having a dispersing step where, after fine particles have been sucked into a dispersing medium to prepare a suspension by a suction type stirring machine and bubbles have been removed from the suspension by a bubble removing means, the suspension is pressurized and introduced from the opposite directions so as to collide with each other, thereby dispersing the suspension.

Abstract: An improved mixing reservoir is disclosed used for supplying particles suspended in a liquid, in the form of a slurry, for delivery and recirculation within a recirculating system. The mixing reservoir includes an outlet port at its lowest point connected to a recirculation pump. The pump is arranged to draw the slurry from the mixing chamber and to cause a stream of the slurry to flow through the recirculating system. The improved mixing reservoir includes a plurality of inlet ports located on the mixing reservoir. Each inlet port is connected to the recirculating system and the stream of slurry, whereby the particles contained in the slurry are retained in suspension by the resulting chaotic motion of the colliding streams of slurry as they are returned to the mixing reservoir.

Abstract: An improved mixing reservoir is disclosed used for supplying particles suspended in a liquid, in the form of a slurry, for delivery and recirculation within a recirculating system. The mixing reservoir includes an outlet port at its lowest point connected to a recirculation pump. The pump is arranged to draw the slurry from the mixing chamber and to cause a stream of the slurry to flow through the recirculating system. The improved mixing reservoir includes a plurality of inlet ports located on the mixing reservoir. Each inlet port is connected to the recirculating system and the stream of slurry, whereby the particles contained in the slurry are retained in suspension by the resulting chaotic motion of the colliding streams of slurry as they are returned to the mixing reservoir.

Abstract: Apparatus and processes are provided for handling fluids in numerous industrial applications. Materials addition devices, including venturi hoppers, and other eductor assemblies, are joined in compact, horizontal, and/or vertical configurations, with one or more shearing devices, including, high and low velocity shearing devices individually, as well as, a combination high and low velocity shearing device. Pipe and valve configuration allow several alternate paths through or around such assemblies and devices, in alternate directions, including the option to backflow through the high velocity shearing device for the removal of obstructions. In the high velocity shearing devices provided, a special jet insert is provided, along with jet insert installation related apparatus, by which the jet insert is easily retained in, and removed from, the piping in the high velocity shearing device.

Abstract: The invention relates to a dosing apparatus for pastelike substances and mixtures thereof with a solvent by means of an injector, comprising an integrated shutoff device. The apparatus contains a detection device which detects the amount of paste according to conductimetry. The shutoff device is a dual piston valve closing an opening between the paste supply tube and an injector suction chamber as well as an opening between the solvent supply tube and an injector pre-chamber. The invention also relates to a method for dosing pastelike substances and the mixtures thereof with a solvent by means of such a device. By opening a shut-off device in a supply tube for a pressurized solvent, a dual piston valve moves against an opposing force. This releases a connection between a paste supply tube and an injection suction chamber, followed by a connection between the solvent supply tube and the injector pre-chamber.

Abstract: An improved mixing reservoir is disclosed used for supplying particles suspended in a liquid, in the form of a slurry, for delivery and recirculation within a recirculating system. The mixing reservoir includes an outlet port at its lowest point connected to a recirculation pump. The pump is arranged to draw the slurry from the mixing chamber and to cause a stream of the slurry to flow through the recirculating system. The improved mixing reservoir includes a plurality of inlet ports located on the mixing reservoir. Each inlet port is connected to the recirculating system and the stream of slurry, whereby the particles contained in the slurry are retained in suspension by the resulting chaotic motion of the colliding streams of slurry as they are returned to the mixing reservoir.

Abstract: Two or more substances are flowed from different inflow passages, and collided against each other at a flow rate of 4 m/sec or higher to cause a uniform reaction with each other for a short time. This method is advantageous for producing a dispersion liquid containing very fine particles the size of submicrons.

Abstract: Enhanced macromixing, mesomixing, and micromixing of multiple discrete reactant streams, particularly for precipitation reactions of low density pumpable fluids, are obtained by controlled continuous high pressure multiple reactant streams flowing into a chemical mixer/reactor. Individual reactant streams are pressurized to about 8,000 to 50,000 psi and achieve velocities up to about 250 meters/second in the final stage of the chemical mixer/reactor. Reactant flows are controlled by a combination of a fixed restriction and a variable driving pump.

Abstract: There are provided a method for uniform mixing of materials, which comprises arranging two or more droplet-discharging means of piezoelectricity-controlled type, discharging fine droplets from respective droplet-discharging means, and colliding them with each other to achieve uniform mixing, and an apparatus therefor. The directions of discharging from these droplet-discharging means are set so that the fine droplets discharged from respective droplet-discharging means are collided with each other at an angle of about 90° or 0 to 20°. The method and apparatus enables mixing and reaction of very small amounts of materials.