The invention relates to a device for injecting a fluid, in particular a cryogenic fluid, the device comprising a fluid feed head and a fluid dispenser body, detachably mounted on said feed head, said feed head comprising a groove for circulating the fluid fed to said body, said groove being closed when the body is mounted on the feed head and said groove being open when the feed head and the body are detached from one another.

A main extruder and a side arm extruder are used in the extrusion of plastics with small amounts of additives or other small substances to be admixed. A minor portion of the plastic material is premixed with small quantity additive substances in a side arm extruder. The premixed material is discharged from the side arm extruder into the main extruder and there mixed with a major portion of feed material.

The present invention concerns an apparatus for treating and cooling foundry molding sand, comprising a mixing container and a mixing tool rotatable about a drive shaft, wherein there is provided an air feed for the feed of air into the container interior. To provide an improved apparatus with which a more uniform fluidized layer is produced as far as possible over the entire cross-section of the mixing container, wherein moreover the proportion of the solid particles entrained with the gas flow is to be reduced, it is proposed according to the invention that the mixing tool has at least two mixing vanes spaced from each other in the vertical direction and at least one mixing vane has a mixer blade with a surface which is inclined relative to the horizontal.

An apparatus for mixing a first fluid into a flow path of a second fluid, the apparatus comprising: a chamber enclosing the flow path, the chamber including a second fluid first inlet for receiving its respective fluid. The apparatus also includes a second inlet arranged downstream of the first inlet and receiving the first fluid, as well as an outlet arranged downstream of the second inlet for discharging a mixture of the first fluid and the second fluid. The second inlet flows into the flow path and is formed by a shared fluid injector mounted transverse to the axial direction that one fluid and the two fluid flows through its chamber. The flow path includes two respective throttle bodies, each of which is pivotally arranged inside the chamber and attached to opposed sides of the chamber for controlling the flow area of the flow path.

A method of producing plant milk enable batch production and may be implemented in a system of low complexity. The method comprises introducing water, plant material and one or more enzymes into a mixing chamber of a mixing unit; operating the mixing unit to generate a slurry that comprises the water, the plant material and the one or more enzymes; transferring the slurry from the mixing unit to a separation unit, which separates the slurry into a liquid component and a sludge component; transferring the liquid component into the mixing chamber of the mixing unit; adding vegetable oil to the liquid component; and operating the mixing unit to produce, in the mixing chamber, plant milk that comprises the vegetable oil and the liquid component.

A method of producing plant milk enable batch production and may be implemented in a system of low complexity. The method comprises introducing water, plant material and one or more enzymes into a mixing chamber of a mixing unit; operating the mixing unit to generate a slurry that comprises the water, the plant material and the one or more enzymes; transferring the slurry from the mixing unit to a separation unit, which separates the slurry into a liquid component and a sludge component; transferring the liquid component into the mixing chamber of the mixing unit; adding vegetable oil to the liquid component; and operating the mixing unit to produce, in the mixing chamber, plant milk that comprises the vegetable oil and the liquid component.

The present invention describes a heated auger assembly and method for applying powder or liquid, such as efficacious concentrations of DCD, to a substrate granule, such as granular urea. The heated auger assembly includes a mixing auger comprising a first and second end, and at least one of a heat applicator. The method of applying powder and/or liquid raw material to a substrate granule includes heating the substrate granules in a pre-heater, such as a fluidized bed, then discharging the heated substrate granules from the pre-heater into a heated auger assembly, which applies heat to the substrate granules, facilitating the coating of the substrate granules with the powder and/or liquid raw material.

The present invention describes a heated auger assembly and method for applying powder or liquid, such as efficacious concentrations of DCD, to a substrate granule, such as granular urea. The heated auger assembly includes a mixing auger comprising a first and second end, and at least one of a heat applicator. The method of applying powder and/or liquid raw material to a substrate granule includes heating the substrate granules in a pre-heater, such as a fluidized bed, then discharging the heated substrate granules from the pre-heater into a heated auger assembly, which applies heat to the substrate granules, facilitating the coating of the substrate granules with the powder and/or liquid raw material.

A system and method is provided for direct condensing steam heating of oil sands process slurry streams including viscous bitumen froth and tailings products streams. Slurry viscosities greater than that of water increase cavitation and vibration issues. High solids content exacerbate component erosions. Difficult, and competing, steam and slurry interactions are managed by steam nozzle arrangements and management of steam injection at sub-sonic velocities based on a ratio of the slurry back-pressure Pb and steam supply delivery pressure Po.

A fluid heating system includes a tank assembly having an interior surface bounding a chamber, the tank assembly including a sidewall encircling the chamber and extending between a first end and an opposing second end, the first end bounding an opening to the chamber, and a lid movable between a first position wherein the opening to the chamber is exposed and a second position wherein the lid is disposed over the opening. A collapsible bag is removably disposed within the chamber of the tank assembly, the collapsible bag bounding a compartment adapted to hold a fluid. A mechanism is provided for controlling the temperature of fluid within the collapsible bag when the collapsible bag is positioned within chamber of the tank assembly.