An agitator for disposition within a cavity of a vessel body containing a particulate includes a weighted portion and a stirring portion. The agitator is positioned and disposed relative to the vessel body to move the stirring portion through the particulate in response to movement of the weighted portion in response to gravitational and/or inertial forces acting on the weighted portion due to movement of the vessel body. Particulate storage vessel arrangements and methods of particulate mixing are also described.

The method according to the present invention comprises using a high-frequency vibrating stirrer that is confirmed to include a treatment tank I, a high-frequency vibrating motor 3 fixed to a table positioned above the treatment tank 1, two vibrating rods 4 extending toward the bottom of the treatment tank 1 and coupled to the table, and multistage vibrating blades 5 mounted to the lower parts of the vibrating rods 4 and surface-plated with palladium or platinum serving as a catalyst in element transmutation, characterized in that the high frequency vibrating motor 3 is controlled by an inverter 6 so as to vibrate the multistage vibrating blades 5 at a frequency of 100-170 Hz in an aqueous solution 2 containing an element to be transmuted in the treatment tank 1, thereby transmuting the element in the aqueous solution 2 into another element. By adding heavy water to the solution to be treated, the transmutation efficiency can be elevated. By adding tritium water with an appropriate concentration as a substitute for the heavy water, the element transmutation can be completed within a short period of time and, at the same time, the tritium water that is seemingly the main cause of radioactive contamination can be effectively utilized and the radioactivity thereof can be attenuated or detoxified.

The disclosure is directed to a sample preparation apparatus for grinding or homogenizing test samples. More specifically, the disclosure relates to grinding samples using rotational and linear motion. Grinding samples can be accomplished with an apparatus with a slider-crank mechanism that is attached to an oscillating connecting linkage. The amplitude of oscillatory motion can be greater than or equal to a length of a sample processing chamber.

The present invention relates to containers for holding liquid samples. The containers may be useful for mixing a liquid sample or lysing cells in a liquid sample. The invention also relates to methods of using the containers of the invention.

A mixing assembly includes a bag of appropriate size, configuration, shape and material and a closable spout that may have extensions of various lengths, shapes and configurations to provide enhanced mixing of a component contained in the bag upon the addition of a second component. Once the closure of the spout is removed, the second component, typically a liquid such as water, milk, juice, chemical, oil substrate, or the like, can be added to the container for mixing. After the closure is refitted, the two components are mixed then consumed or dispensed, either by removing the closure or from a separate spout or nozzle fitted to the closure.

A process for controlling a decarboxylation of acidic cannabinoids for an infused soluble fat product, such as a butter product, is disclosed. In one embodiment for producing a butter product, raw cannabis base material is dried, pulverized, heated, and cooled to produce a decarbed cannabis material. The decarbed cannabis material is mixed with unsalted butter in an about 22:1 to and about 26:1 ratio, by weight, at ambient temperature and pressure, to produce a heterogenous butter material. The heterogenous butter material is canned and subjected to in-container thermal processing, including agitation during the thermal processing. The resulting heterogenous butter material is separated before cooling produces the butter product.

A process for controlling a decarboxylation of acidic cannabinoids for an infused soluble fat product, such as a butter product, is disclosed. In one embodiment for producing a butter product, raw cannabis base material is dried, pulverized, heated, and cooled to produce a decarbed cannabis material. The decarbed cannabis material is mixed with unsalted butter in an about 22:1 to and about 26:1 ratio, by weight, at ambient temperature and pressure, to produce a heterogenous butter material. The heterogenous butter material is canned and subjected to in-container thermal processing, including agitation during the thermal processing. The resulting heterogenous butter material is separated before cooling produces the butter product.

A process for controlling a decarboxylation of acidic cannabinoids for an infused soluble fat product, such as a butter product, is disclosed. In one embodiment for producing a butter product, raw cannabis base material is dried, pulverized, heated, and cooled to produce a decarbed cannabis material. The decarbed cannabis material is mixed with unsalted butter in an about 22:1 to and about 26:1 ratio, by weight, at ambient temperature and pressure, to produce a heterogenous butter material. The heterogenous butter material is canned and subjected to in-container thermal processing, including agitation during the thermal processing. The resulting heterogenous butter material is separated before cooling produces the butter product.

A process for controlling a decarboxylation of acidic cannabinoids for an infused soluble fat product, such as a butter product, is disclosed. In one embodiment for producing a butter product, raw cannabis base material is dried, pulverized, heated, and cooled to produce a decarbed cannabis material. The decarbed cannabis material is mixed with unsalted butter in an about 22:1 to and about 26:1 ratio, by weight, at ambient temperature and pressure, to produce a heterogenous butter material. The heterogenous butter material is canned and subjected to in-container thermal processing, including agitation during the thermal processing. The resulting heterogenous butter material is separated before cooling produces the butter product.