A distillation/extraction insert may attach to a vessel containing liquid to be distilled, and may use heated water circulating through a heating coil, as well as draw a partial vacuum to induce boiling. A condensation coil may collect the vapor and condense the vapor into distillate. A controller may monitor various temperatures and vacuum level to precisely control the heated water being used to boil components in the liquid. The heated water may be created by a beer making machine, which may have a temperature controlled recirculating water system. The insert may be a self-contained unit that attaches to a vessel, where the vessel may also be used for fermenting brewer's mash for distillation. In some cases, an extraction chamber may be used for collecting essential oils from various materials.

A method for removing contaminants such as pesticides and fungicides from cannabinoid extracts. Cannabinoid extracts containing contaminants may be dissolved in a water and ethanol solution, and then cooled to allow water-soluble contaminants to settle out of the mixture. The water and ethanol may then be removed via evaporation or distillation, leaving purified cannabinoids without contaminants. Contaminant removal may be incorporated into a method for producing a blended extract of cannabinoids and terpenes, which extracts terpenes using supercritical CO2, and extracts a cannabinoid concentrate from the residual material using a cold ethanol flush followed by distillation and then by contaminant removal; the CO2-extracted terpenes are then added back to the purified cannabinoid concentrate in a final blending step. Blending terpenes at the end of extraction may enhance the flavor and effectiveness of the purified cannabinoid concentrate.

Methods of isolating tocopherol from Commiphora myrrha using a non-polar solvent are provided.

This disclosure describes methods to separate solids from liquids in a production facility. A process separates components in a defiber process stream by using two or more mechanical devices to separate the solids from the liquids based on density differences. The process produces animal feed products having a protein content ranging from approximately 45% to approximately 64%.

This disclosure describes methods to separate solids from liquids in a production facility. A process separates components in a defiber process stream by using two or more mechanical devices to separate the solids from the liquids based on density differences. The process produces animal feed products having a protein content ranging from approximately 45% to approximately 64%.

The disclosure relates to a system and method for preflash processing used in dry mill ethanol facilities, including routing beer to a baffled flash tank, in which the beer is processed and then separated into a vapor stream and liquid beer. Preheating the beer via preflash processing efficiently recovers energy within the system, thereby reducing the need for additional energy input.

A distillation/extraction insert may attach to a vessel containing liquid to be distilled, and may use heated water circulating through a heating coil, as well as draw a partial vacuum to induce boiling. A condensation coil may collect the vapor and condense the vapor into distillate. A controller may monitor various temperatures and vacuum level to precisely control the heated water being used to boil components in the liquid. The heated water may be created by a beer making machine, which may have a temperature controlled recirculating water system. The insert may be a self-contained unit that attaches to a vessel, where the vessel may also be used for fermenting brewer's mash for distillation. In some cases, an extraction chamber may be used for collecting essential oils from various materials.

An apparatus for dealcoholizing alcoholic beverage comprising: a first receptacle comprising means to receive alcoholic beverage, a second receptacle comprising means receive in fluid, a third receptacle arranged to receive alcoholic beverage from the first receptacle, said third receptacle being further connected to the second receptacle, means for producing vacuum at least functionally connected to at least the third receptacle to lower pressure therein, fractionating means at least partially inside the second receptacle, the fractionating means functionally connecting the second and third receptacle, wherein the apparatus is arranged to facilitate vacuum distillation for the alcoholic beverage so that vaporizing ethanol from the alcoholic beverage travels via the fractionating means to the second so that the vaporized ethanol is dissolved with the fluid in the second receptacle. Corresponding method for dealcoholization is presented.

A method and apparatus are presented for reducing the methanol content in a fermented solution to create forms healthier to human consumption, thereby reducing headaches and hangovers. In accordance with the disclosed embodiments, the fermented solution is placed in a vacuum vessel and heated to a fixed temperature. Pulling a fixed vacuum within the vessel lowers the boiling point of the solution, creating a vapor selectively of the low-end congeners, for example, methanol. The methanol-rich vapor is condensed and disposed leaving a healthier fermented solution with reduced methanol content. In some embodiments, the fixed temperature is lower than or equal to 32 degrees C. which preserves the aroma and taste of the fermented solution.

The system and methods described are directed to a distillation system and method having an evaporator tank with a wall surrounding an interior evaporator tank area. A non-oxidizing gas line is disposed at least partially outside the evaporator tank in communication with the interior evaporator tank area, wherein the non-oxidizing gas line introduces a non-oxidizing gas into the interior evaporator tank; the interior evaporator tank area is generally at or above an ambient atmospheric pressure.