Disclosed is a mixing device including a chamber defining a circulation zone, the circulation zone including at least one base liquid and a mixing fluid, the mixing fluid being less paramagnetic than the base liquid, the mixing fluid including and/or consisting of at least one first fluid, the mixing device including at least one magnetic element which generates a magnetic field in the circulation zone so that the mixing fluid flows into the base liquid, the chamber including at least one first injection point of the first fluid into the circulation zone, the first injection point opening into the base liquid.

Disclosed is a mixing device including a chamber defining a circulation zone, the circulation zone including at least one base liquid and a mixing fluid, the mixing fluid being less paramagnetic than the base liquid, the mixing fluid including and/or consisting of at least one first fluid, the mixing device including at least one magnetic element which generates a magnetic field in the circulation zone so that the mixing fluid flows into the base liquid, the chamber including at least one first injection point of the first fluid into the circulation zone, the first injection point opening into the base liquid.

Disclosure provides a two-segment electromagnet stirring member, and a two-segment electromagnet semi-solid die-casting apparatus including the same, and a die-casting method using the same. The two-segment electromagnet stirring member includes a plurality of magnetic field generation parts therein, and includes a first electromagnetic stirring part and a second electromagnetic stirring part separated from each other. The first electromagnetic stirring part and the second electromagnetic stirring part are coupled to each other in a ring shape to surround an outer circumferential surface of a sleeve to perform electromagnetic stirring to molten metal in the sleeve, and are coupled to each other so as to position the plurality of magnetic field generation parts at radially equal gaps around the sleeve.

Disclosure provides a two-segment electromagnet stirring member, and a two-segment electromagnet semi-solid die-casting apparatus including the same, and a die-casting method using the same. The two-segment electromagnet stirring member includes a plurality of magnetic field generation parts therein, and includes a first electromagnetic stirring part and a second electromagnetic stirring part separated from each other. The first electromagnetic stirring part and the second electromagnetic stirring part are coupled to each other in a ring shape to surround an outer circumferential surface of a sleeve to perform electromagnetic stirring to molten metal in the sleeve, and are coupled to each other so as to position the plurality of magnetic field generation parts at radially equal gaps around the sleeve.

A magnetic digital microfluidic apparatus for manipulating a liquid droplet containing magnetic particles using a magnetic force, the apparatus comprising: a hydrophobic surface on which the liquid droplet containing magnetic particles can be moved using the magnetic force; and at least one surface energy trap provided to retain at least a portion of the liquid droplet thereon, the at least one surface energy trap comprising a layer of polydopamine. A method of magnetic digital microfluidic manipulation, the method comprising the steps of: a) contacting a liquid droplet on a hydrophobic surface with a polydopamine surface energy trap, the liquid droplet containing magnetic particles; b) retaining at least a portion of the liquid droplet on the surface energy trap; and c) moving at least the magnetic particles with a magnetic force.

A magnetic digital microfluidic apparatus for manipulating a liquid droplet containing magnetic particles using a magnetic force, the apparatus comprising: a hydrophobic surface on which the liquid droplet containing magnetic particles can be moved using the magnetic force; and at least one surface energy trap provided to retain at least a portion of the liquid droplet thereon, the at least one surface energy trap comprising a layer of polydopamine. A method of magnetic digital microfluidic manipulation, the method comprising the steps of: a) contacting a liquid droplet on a hydrophobic surface with a polydopamine surface energy trap, the liquid droplet containing magnetic particles; b) retaining at least a portion of the liquid droplet on the surface energy trap; and c) moving at least the magnetic particles with a magnetic force.

This specification discloses an open mould conveyer casting apparatus for forming a metal ingot including: a conveyer for conveying one or more ingot moulds from at least a first location where an ingot mould receives a molten metal having an exposed surface, to a second location where the molten metal has partially or completely solidified into a metal ingot; one or more magnetic field applicators configured to apply a varying magnetic field to the molten metal in the ingot mould between the first location and the second location, the magnetic field being of a magnetic field strength to induce stirring within the molten metal. This specification also discloses an open mould conveyer casting method for forming a metal ingot including: filling an ingot mould with a molten metal, the molten metal in the mould having an exposed surface; solidifying the molten metal to form the metal ingot; and applying a varying magnetic field to the molten metal of a magnetic field strength and frequency to induce stirring within the molten metal during the step of solidifying the molten metal.

An ultrafine bubble generation device including a gas-liquid mixed fluid generator, a rotary mixer, and a bubble shear filter. The rotary mixer is provided with a hollow part including a vertex inside, including an inflow hole, wherein a groove having a spiral shape is provided in an inner wall surface of the hollow part. The bubble shear filter is provided with a hollow part inside, including an inflow hole for introducing the fluid into the hollow part, wherein the hollow part is tubular, and a plurality of circular plates are arranged perpendicularly to a central axis of the hollow part, and an opening of a type 1 of circular plate and a pointed end portion of a type 2 of circular plate adjacent to the type 1 of circular plate are arranged to face each other, and connected with a pipeline.

Apparatus and methods for stirring a molten metal are provided. The apparatus comprising: an electromagnetic stirrer, the electromagnetic stirrer including a core, the core being provided with two or more teeth, the core being provided with two or more electrically conducting coils; connections for applying a current to the electrically conducting coils; wherein the two or more teeth have an end proximal the core and an end distal the core, the end distal the core defining a tooth end face, the tooth end face for at least one of the teeth not being aligned with the tooth end face for at least one of the other teeth. In this way the air gap between the teeth and the container in which molten metal is to be stirrer can be kept small, even with curved walls or bases to the container.

Apparatus and methods for stirring a molten metal are provided. The apparatus comprising: two or more discrete units, each unit including a core (7), the core (7) being provided with two or more teeth (5, 13, 17), the core (7) being provided with at least one electrically conducting coils (3, 15,19); in use, mounting a first discrete unit in proximity to the container (23) at a first location; in use, mounting a second discrete unit in proximity to the container (23) at a second location; electrical connections between the two or more discrete units and a common control unit, thereby providing an electromagnetic stirrer. The apparatus format allows the discrete units to be position between different pairs of elements or parts of furnaces and the like to allow retrofitting of electromagnetic stirring where access is restricted.