Abstract: This disclosure relates to a method for deaerating a liquid layer such as a coating solution using electrostatic forces. A flow of charged particles is created above and moved towards a low conductivity liquid layer. The flow of charged particles causes localized thinning of the liquid layer which facilitates the removal of bubbles of entrained gas from the liquid by bringing those bubbles closer to the exposed surface of the liquid and rupturing them at that surface. This electrostatic deaeration technique is combined with other non-electrostatic liquid layer thinning techniques or degassing techniques to further facilitate removal of bubbles from the liquid in preparation of further processing of the liquid. The liquid layer may be stationary or flowing with respect to the application of charge particles.

Abstract: Ultrasonic devices for preventing microbubbles and/or microparticles from reaching the brain during a PCI, such as cardiovascular surgery. Devices 27 and 77 are designed for implantation in the chest cavity and operate in combination with needle vents or other vent systems for removing diverted microbubbles. Systems 77 and 83 are designed for noninvasive employment. Devices 57 and 87 are particularly designed to prevent microbubbles from reaching the great origins of the carotid arteries and/or for diverting bubbles that might reach the vicinity and otherwise pass through. Improved devices 11 and 94 separate microbubbles from a flowing bloodstream and produce a cleansed stream.

Abstract: A method is taught for removing bubbles from a coating solution prior to a coating operation. The method comprises debubbling the coating solution in a tank open to atmosphere to remove bubbles having a diameter in the range of from about 200 to 300 &mgr;m and greater therefrom; flowing the coating solution from the tank to a bubble elimination tube; debubbling the coating solution in the bubble elimination tube to remove bubbles from the coating solution having a diameter greater than about 200 &mgr;m, the bubble elimination tube preferably including at least one ultrasonic horn; flowing the coating solution from the bubble elimination tube through an end cap round ultrasonic bubble eliminator, the end cap round ultrasonic bubble eliminator removing remaining bubbles in the coating solution having a diameter greater than about 30 &mgr;m; and delivering the coating solution from the end cap round ultrasonic bubble eliminator to the downstream coating operation.

Abstract: A debubbling apparatus for removing gaseous bubbles entrained in a liquid is taught which has improved dearation capacity. The debubbling apparatus includes a vessel including a liquid inlet, at least one well extending from the vessel, the at least one well having a liquid outlet, and an ultrasonic transducer horn residing in the at least one well, the at least one well and the ultrasonic transducer horn residing therein being positioned at an angle in the range of from about 20° to about 45° with respect to vertical. With the ultrasonic horn and well so angled, bubbles in the liquid in the at least one well are subjected to a buoyancy force, a drag force, and an acoustic wave force which yields a resultant force that drives the bubbles toward an upper wall section of the at least one well.

Abstract: The invention includes a method for defoaming aqueous or non-aqueous foams comprising placing a sonicator probe directly into said foam and thereafter sonicating said foam in pulse mode at a sonication energy of at least about 25 watts/cm2 for a time required to collapse the foam.

Abstract: A method is taught for removing bubbles from a coating solution prior to a coating operation. The method comprises debubbling the coating solution in a tank open to atmosphere to remove bubbles having a diameter in the range of from about 200 to 300 &mgr;m and greater therefrom; flowing the coating solution from the tank to a bubble elimination tube; debubbling the coating solution in the bubble elimination tube to remove bubbles from the coating solution having a diameter greater than about 200 &mgr;m, the bubble elimination tube preferably including at least one ultrasonic horn; flowing the coating solution from the bubble elimination tube through an end cap round ultrasonic bubble eliminator, the end cap round ultrasonic bubble eliminator removing remaining bubbles in the coating solution having a diameter greater than about 30 &mgr;m; and delivering the coating solution from the end cap round ultrasonic bubble eliminator to the downstream coating operation.

Abstract: A method is taught for debubbling a liquid composition containing entrained gas bubbles that increases the effectiveness of ultrasonic debubbling apparatus employed. The method comprises the steps of immersing an ultrasonic horn in water, the horn being contained within a vessel and coupled to a pair of transducers; adjusting an RF generator connected to the pair of transducers to produce a signal at or near a parallel resonance frequency of the pair of transducers; fixing the RF generator at a constant voltage level; and flowing the liquid composition to be debubbled through the vessel with the RF generator operating at constant voltage level and at a variable operating power level that varies with the viscosity of the liquid composition.

Abstract: A debubbling apparatus for removing gaseous bubbles entrained in a liquid is taught which has improved dearation capacity. The debubbling apparatus includes a vessel including a liquid inlet, at least one well extending from the vessel, the at least one well having a liquid outlet, and an ultrasonic transducer horn residing in the at least one well, the at least one well and the ultrasonic transducer horn residing therein being positioned at an angle in the range of from about 20° to about 45° with respect to vertical. With the ultrasonic horn and well so angled, bubbles in the liquid in the at least one well are subjected to a buoyancy force, a drag force, and an acoustic wave force which yields a resultant force that drives the bubbles toward an upper wall section of the at least one well.

Abstract: The invention relates to a system for the conduction of liquid media, for example fuels, between a tank and a delivery point, especially fuel consumption measuring systems or fuel conditioning systems, which includes a bubble-separating arrangement, as well as a filter element for use in such a system. For the simple and effective detection and separation of bubbles and further contaminations of every type in the particular liquid medium and, if necessary, the further development for additional simple and rapid determination of their volumes and therewith consideration in possible measurements, it is provided that the bubble-separating arrangement is formed by a filtering device and in the filtering device the connection for the liquid medium is arranged in a zone outside the filtering element.

Abstract: A method and apparatus for evaluating the end cap round transducer horn assemblies used in debubbling operations wherein the ECR THA can be evaluated off-line at both high and low power and on-line by making electrical measurements on the ECR THA. The electrical measurements are used to characterize the physical condition of the piezoelectric ceramics of the THA. A test box is employed to practice the method. The test box is connected between the THA and a signal analyzer. Power is supplied to the THA and the electrical signals across the THA are sampled. The sampled electrical signals are transmitted to the signal analyzer while maintaining the amplitude and phase relationship thereof. The sampled electrical signals are used to generate an impedance trace for the particular THA. That impedance trace is compared to a model impedance trace. In such manner, it can be determined whether the ECR THA is operational.

Abstract: Nitrogen gas is blown into a developing solution tank, and a developing solution is supplied through a supply nozzle to the surface of a wafer, through a filter unit or the like, with the pressure. The filter unit has a ring-shaped flow path flowing from down upward, an impurity filter provided on the inside thereof, an exhaust passage connected to an uppermost portion of the flow path, and a bubble filter composed of, for example, a hollow fiber membrane, which is provided to block a part of the exhaust passage and has the property of transmitting gas without transmitting liquid. The dissolved nitrogen contained in the developing solution is changed to bubbles by vaporizing in the flow path, and only the bubbles can be removed from the developing solution since the aforesaid bubble filter selectively transmits these bubbles whereby the amount of the developing solution can be saved.

Abstract: The invention relates to a system for the conduction of liquid media, for example fuels, between a tank and a delivery point, especially fuel consumption measuring systems or fuel conditioning systems, which includes a bubble-separating arrangement, as well as a filter element for use in such a system. For the simple and effective detection and separation of bubbles and further contaminations of every type in the particular liquid medium and, if necessary, the further development for additional simple and rapid determination of their volumes and therewith consideration in possible measurements, it is provided that the bubble-separating arrangement is formed by a filtering device and in the filtering device the connection for the liquid medium is arranged in a zone outside the filtering element.

Abstract: Gas bubbles in a moving fluid are collected in a chamber alongside the conduit carrying the fluid. In a preferred embodiment, an ultrasonic transducer cooperates with a reflector to create a standing ultrasonic wave pattern that is oriented at an acute angle to the horizontal axis of fluid flow. Bubbles gather at the troughs between the waves and then move between the pressure waves in the downstream direction to be collected in the chamber. Bouyant forces aid the movement of the bubbles in an upward direction. A gas permeable window at the top of the chamber allows removal of the collected bubbles.

Abstract: In an apparatus for defoaming liquid with ultrasonic wave in order to eliminate foam or bubble from the liquid, provided with an ultrasonic wave liquid tank, a defoaming tank, and an ultrasonic oscillator for irradiating ultrasonic wave through the ultrasonic wave transmitting liquid to the defoaming tank; at least a part of the defoaming tank is immersed in the ultrasonic wave transmitting liquid in the ultrasonic wave liquid tank, and a degree of unsaturation of dissolved air in the ultrasonic wave transmitting liquid under defoaming operation is not lower than 10%.

Abstract: A method for wetting a filter element by a high viscosity liquid and an apparatus for practicing such method are provided. In the method, a sealable container that is equipped with a vibration device and is capable of holding a pressurized liquid therein is used. The vibration device creates a vibration in the pressurized liquid such that trapped air bubbles in the filter element are separated from the filter element and are exhausted. The method and apparatus can be used for pre-wetting any filter element in any type of liquid, either of the high viscosity type or of the low viscosity type, even though it is particularly suitable for wetting a filter element by a high viscosity liquid and removing trapped air bubbles in the filter element.

Abstract: A sample handling system provides an evenly-suspended, small volume, bubble-free sample to an analyzer such as a light scattering particle size analyzer. A flow of suspension is forced through an elongate channel below the surface of the liquid in the channel, along a downwardly sloping path, into impact with an end wall, and through an abrupt downward turn. Controlled turbulence created in the flow disperses particles and releases bubbles from the liquid.

Abstract: Apparatus and method for removing bubbles from a discrete sample of a temperature-sensitive liquid, particularly a photographic emulsion. A container having a bottom and side walls defines a sample area containing the liquid to be sampled and is made of a substantially acoustically transparent material. The container is removably mounted to a receptacle such that the bottom and at least a portion of the side walls are immersed in a fluid bath. The fluid bath is heated to maintain the liquid at a predetermined temperature greater than ambient temperature. An ultrasonic device spaced from the container directs ultrasonic waves through the fluid toward the bottom of the container to degas the liquid.

Abstract: Gas which is contaminated with liquid and/or solid is purified using a vertically oriented Venturi column in conjunction with a sound field. At the throat of the Venturi column, a scrubbing liquid is atomized and injected in a direction substantially perpendicular to the flow of the contaminated gas. A sound field is generated at the throat in order to cause the contaminate to shift relative to the vesicles of the scrubbing liquid.

Abstract: An apparatus and method for sterilizing air for medical uses applied to air compressors used in dentists' apparatuses. According to the invention, we use the heat of the air coming out from the air outlet provided on the head of the compressor, to reduce the bacterial charge of a filtering cartridge fitted on the conduits that feed the air to the devices. A body contains a sterilizing cartridge and a pipe coil or a conduit through which the air coming out of the head of the compressor passes, so that it is possible to use this heat for heating the cartridge thus reducing the bacterial charge of the same every time the compressor is turned on, without the need of disassembling parts or components.

Abstract: A method of degassing utilizing a degassing faucet having a first portion which includes a liquid inlet with a first cross-sectional area and a liquid outlet with a second cross-sectional area smaller than the first cross-sectional area, the liquid outlet being disposed adjacent a conduit portion having a cross-sectional area larger than the second cross-sectional area and the degassing faucet having a second portion with an impact surface.

Abstract: A cavitation chamber is driven by a hydraulic driving system in which acoustic pulses are generated by repeated water hammers. In the driving system a liquid is pumped through a conduit. The flow of liquid through the conduit is periodically interrupted by a valve. A water hammer is created each time the valve closes. Acoustic pulses produced by the water hammer propagate directly into a cavitation chamber where they are reflected back and forth by acoustically reflective plates. The cavitation chamber may be applied to degas liquids, mix chemicals or slurries, or promote sono-chemical reactions. The design generates acoustic pulses efficiently. The acoustic pulses are coupled to the cavitation chamber with minimal losses. The apparatus is rugged and inexpensive when compared to systems which incorporate electromechanical transducers.

Abstract: Rarefaction pulses are generated in a chamber containing a liquid to be degassed. The rarefaction pulses are generated by creating repeated water hammers in a conduit. The water hammers result in sudden high pressure pulses which deform a stiff springy, impermeable deflection cap. After the water hammer pulses pass, the deflection cap snaps back toward its equilibrium position. The snapping action of the deflection cap causes a rarefaction pressure pulse which enhances bubble formation in the chamber. The deflection cap may resonate for some time after each water hammer pulse passes. During the interval when the deflection cap resonates the deflection cap generates an attenuated acoustic wave which is transmitted into the liquid being degassed. The deflection cap may also be driven by a system in which a high pressure fluid, such as steam, is introduced into a sealed chamber behind the deflection cap and then suddenly vented.

Abstract: There is presented a sonic apparatus for degassing liquids. The apparatus cludes a vessel for receiving and releasably retaining an open-top container and adapted to be closed with the container therein, transducer suspension structure positioned in the vessel, an ultrasonic transducer suspended from the structure and disposed in the container spaced from the walls and bottom of the container and beneath the surface of a liquid contained therein. The apparatus further includes a signal generator outside of the vessel for transmitting power to the transducer, and a vacuum pump for maintaining the vessel interior at a vacuum.

Abstract: A generator for driving an ultrasonic transducer for use in ultrasonic cleaning. The generator is based on a voltage controlled oscillator which drives an output circuit which includes the ultrasonic transducer. The output circuit has a resonant frequency, and a resonance follower produces a control voltage which tunes the voltage controlled oscillator to the resonant frequency. Operating in conjunction with the automatic tuning elements is a constant power control which allows the user to set a desired power level, and monitors the actual output power by means of an output wattmeter circuit, to cause the actual output power to match the level selected by the user. The constant output power circuit is effective even during resonance tracking of the system, or during frequency modulation of the ultrasonic output energy.