Systems for generating stable emulsions may employ one or more liquid-liquid ejectors for mixing the oil with water through motive and suction streams to produce the emulsion as a discharge stream. One or more motive tanks may be fluidly coupled to the one or more liquid-liquid ejectors; the one or more motive tanks may supply the one or more liquid-liquid ejectors with a motive fluid. One or more suction tanks may be fluidly coupled to the one or more liquid-liquid ejectors; the one or more suction tanks may supply the one or more liquid-liquid ejectors with a suction fluid. One or more discharge tanks may be fluidly coupled to the one or more liquid-liquid ejectors; the one or more discharge tanks may collect an emulsion from the one or more liquid-liquid ejectors. Additionally, a flow line coupled to the one or more discharge tanks may feed the emulsions into a formation.

Systems for generating stable emulsions may employ one or more liquid-liquid ejectors for mixing the oil with water through motive and suction streams to produce the emulsion as a discharge stream. One or more motive tanks may be fluidly coupled to the one or more liquid-liquid ejectors; the one or more motive tanks may supply the one or more liquid-liquid ejectors with a motive fluid. One or more suction tanks may be fluidly coupled to the one or more liquid-liquid ejectors; the one or more suction tanks may supply the one or more liquid-liquid ejectors with a suction fluid. One or more discharge tanks may be fluidly coupled to the one or more liquid-liquid ejectors; the one or more discharge tanks may collect an emulsion from the one or more liquid-liquid ejectors. Additionally, a flow line coupled to the one or more discharge tanks may feed the emulsions into a formation.

The embodiments include a plant for the preparation of drugs. A casing defining at least one storage chamber in communication with at least one preparation chamber by a passage opening is provided. A compartment in the storage chamber is configured to receive a plurality of base components suitable for containing substances for the preparation of drugs. A manipulator is housed in the preparation chamber and configured to define a loading condition. The manipulator takes at least one base component from the compartment and positions it in the preparation chamber. The manipulator is configured to combine substances contained in the base components brought into the preparation chamber to form at least one finished product containing a drug. The plant includes a control unit configured to command the rotation of the component, the loading position to the manipulator, and the working condition to the manipulator for the preparation of the finished product.

An emulsion system is provided. The system includes a shaft that supports a plurality of cutting assemblies and plates in alternating order, wherein the cutting assembly rotates with respect to an in close proximity to the plate. The plurality of cutting plates each on their circumferential edge have an identification system to memorialize the diameter of the emulsion holes.

An adapter for enabling grinding of one or more materials using a centrifugal mixer, the adapter to be fitted into a container of the centrifugal mixer; it has a body defining an inner compartment, the body including openings; a filter positioned or for positioning around the body; and wherein the inner compartment is configured to receive grinding media for grinding the one or more materials and the openings are adapted to enable the one or more materials to enter and/or leave the inner compartment for grinding by the grinding media when subject to the centrifugal force applied by the centrifugal mixer while maintaining the grinding media in the inner compartment, the filter is adapted to filter the one or more materials that are ground to a size suitable to pass through the filter; a method of use thereof.

A blender includes a body formed by an outer case made of a metal material to define an outer appearance and an inner case accommodated inside the outer case; a container which is seated on the body in which a blade module for crushing food is disposed; a motor assembly provided inside the inner case to rotate the blade module; and a wireless communication module provided in the inner case and performing wireless communication with a remote device. The outer case includes a communication module opening that is opened at a position corresponding to a mounting position of the communication module.

A mixing apparatus (1) for mixing slaughter offal with a preservative agent, the apparatus comprising an offal collection tank (3) with a bottom (4) provided with a discharge opening (5) connectable to a closable discharge, an agitator (8) extending into the offal collection tank, and a pump unit (9) operatively connectable to the discharge, wherein the apparatus further comprises a preservative reservoir (7) mounted on top of the collection tank (3). A collection and preservation system is provided, wherein the addition of preservation agent can be strictly controlled, can easily and quickly be installed and connected when it is to be used. After use, the system is easily removed and cleaned.

Static plant for preparing feed mixes for ruminant livestock, having a conveyor unit for conveying the feed mix ingredients, chain and/or screw feeders, feeders with weight sensors and supplementary conveyor belt, silos of solid ingredients, and silos of liquid ingredients, independently supplying two or more high-capacity mixers, via the conveyor unit by a dual flow, the mixers including weight control means, laser sensors and strain gauges. The invention allows for mixing to be controlled with increased accuracy and, consequently, improving the quality of the mix, using fully automated continuous operating cycles, the resulting mix being discharged onto any type of known device using discharging means, for its distribution.

The present invention provides a producing method of concrete capable of appropriately controlling setting and hardening, and having excellent flexibility of production and handling of concrete. The producing method of concrete includes a cement paste mixing step and a concrete mixing step. In the cement paste mixing step, cement, mixing water and retarder are mixed together to obtain cement paste. According to this, setting and hardening of the cement paste are suppressed, and it is possible to store the cement paste for predetermined time. In the concrete mixing step, aggregate is input into the cement paste, and they are mixed together to obtain concrete. By the mixing operation, a setting-delaying effect is canceled.

A modular premix batching and dispensing system for crop micronutrient application includes a skid-based batching and mixing system with a first dry bin to store a dry mineral sulfate; a second dry bin to store an amino acid; a water source; a reactor having a mixing mechanism and connected with the water source and the dry bins; and a first controller configured to automatically control transfer of water, dry mineral sulfate, and amino acid to the reactor and to control operation of the reactor; and a skid-based day tank system with at least one day tank configured to store mineral amino acid complex received from the reactor; and a dispensing network configured to selectively transfer the mineral amino acid complex to an application receptable. An associated method of preparing and delivering micronutrients using a modular premix batching and dispensing system is also described.