A method for extracting cannabis essential oils. A housing is provided for containing trichome bearing material from a cannabis plant, the housing having a sealable opening. A rotatable impeller is disposed in the housing. A container is connected to the housing for collecting essential oils. The process for extracting cannabis essential oils includes the steps of introducing trichome bearing material from the cannabis plant into the housing, introducing water into the housing via an opening therein, and agitating the water and the trichome bearing material to separate and extract essential oils therefrom.

Disclosed are a process and system for preparing a catalyst slurry. The process can include preparing a catalyst slurry comprising a solid particulate catalyst and a carrier liquid in a catalyst slurry preparation system. The catalyst slurry preparation system can include a mixing vessel, a rotatable impeller system connected to the mixing vessel, and a motor connected to the rotatable impeller system. The rotatable impeller system can include an agitator shaft and a hub connected to the agitator shaft. The hub and at least a portion of the agitator shaft are positioned within the mixing vessel along a longitudinal axis of the mixing vessel, and the hub has at least three blades.

A method, apparatus, and system for obtaining a solution from a solid product are disclosed. A solid product is housed in a dispenser. A liquid is introduced into the housing of the dispenser to interact with the solid product to form a solution. To control the concentration of the formed solution, the turbulence of the liquid introduced to the dispenser is controlled and adjusted either manually or on a real time basis to account for varying characteristics of either or both of the solid product and the liquid. The dispenser will adjust the turbulence based on the characteristics to maintain a formed solution within an acceptable range of concentration. The concentrated solution can then be discharged from the dispenser to an end use application.

A method for producing a liquid composition which contains surfactants, and to the compositions obtained by the method.

An additive manufacturing system for additive manufacturing material with long fibers includes an extruder comprising a nozzle that includes a static-mixing portion, a compression portion, and a long fiber alignment portion. The static-mixing portion includes a static-mixing channel with static-mixing rods distributed inside and extending radially inward from a channel wall. The long fiber alignment portion has an alignment channel with a diameter D.sub.AC that is less than a diameter D.sub.SMC of the static-mixing channel. The compression portion includes with a reducing diameter from an input end to an output end of the compression channel. A nozzle and method for additive manufacturing are also disclosed.

An additive manufacturing system for an additive manufacturing material and embedded short-chopped fibers includes an extruder comprising a nozzle having a nozzle flow channel. The nozzle includes a plurality of spaced apart elongated aligning structures distributed inside the nozzle flow channel and parallel to the longitudinal center axis defining alignment flow channels within the nozzle flow channel. A nozzle for additive manufacturing, a method of additive manufacturing, and a method of making a nozzle for an additive manufacturing system for and additive manufacturing material and embedded short-chopped fibers are also disclosed.

An additive manufacturing system for additive manufacturing with an additive manufacturing material and fibers includes an extruder comprising a static-mixing nozzle having a static-mixing channel and static-mixing structures distributed inside the static-mixing channel and extending radially inward from the channel wall, and being longitudinally distributed and radially staggered over a portion of the length of the static-mixing channel. A static-mixing nozzle, a method of additive manufacturing, and a method of making a static mixing nozzle for additive manufacturing are also disclosed.

A method, apparatus, and system for obtaining a solution from a solid product are disclosed. A solid product is housed in a dispenser. A liquid is introduced into the housing of the dispenser to interact with the solid product to form a solution. To control the concentration of the formed solution, the turbulence of the liquid introduced to the dispenser is controlled and adjusted either manually or on a real time basis to account for varying characteristics of either or both of the solid product and the liquid. The dispenser will adjust the turbulence based on the characteristics to maintain a formed solution within an acceptable range of concentration. The concentrated solution can then be discharged from the dispenser to an end use application.

A continuous process for dispersing a particulate solid material in a liquid comprising the steps of a) dosing a particulate solid material feed stream via a particulate solid feed line (1) into a mixing chamber (2), b) simultaneously dosing a liquid feed stream via a liquid feed line (3) into the mixing chamber (2), wherein at least one of the feed streams additionally comprises an organic film-forming binder, c) simultaneously exerting a shear force on the content of the mixing chamber (2) sufficient to mix the particulate solid material and the liquid to form a mixture of particulate solid in the liquid, and d) simultaneously exerting a shear force to the mixture of particulate solid in the liquid sufficient to reduce the particle size of the particulate solid material in a dispersing chamber (4) to form a particulate solid material dispersed in the liquid, and e) simultaneously removing a liquid product stream of particulate solid material dispersed in the liquid from the dispersing chamber via a liquid dispersion outlet line (5), wherein the mixing chamber (2) and the dispersing chamber (4) are one single chamber (2, 4), wherein the particulate solid material is in the form of powder, granules or pellets.

A process for dispersing agglomerates or clusters of particles utilizing pressure generated from volatilization of an interstitial liquid. More particularly, the method relates to infusing the particles with a first liquid, placing the infused particles in a second liquid or fluid having a higher boiling point than the first liquid and heating the composition to a temperature above the boiling point of the first liquid thereby resulting in breakage of the particles. Compositions including particles dispersed by interstitial liquid vaporization are also disclosed.